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Grid/Hadrons/EigenPack.hpp

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/*************************************************************************************
Grid physics library, www.github.com/paboyle/Grid
2018-09-01 21:30:30 +01:00
Source file: Hadrons/EigenPack.hpp
Copyright (C) 2015-2018
Author: Antonin Portelli <antonin.portelli@me.com>
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
*************************************************************************************/
/* END LEGAL */
#ifndef Hadrons_EigenPack_hpp_
#define Hadrons_EigenPack_hpp_
#include <Hadrons/Global.hpp>
#include <Grid/algorithms/iterative/Deflation.h>
#include <Grid/algorithms/iterative/LocalCoherenceLanczos.h>
BEGIN_HADRONS_NAMESPACE
// Lanczos type
#ifndef HADRONS_DEFAULT_LANCZOS_NBASIS
#define HADRONS_DEFAULT_LANCZOS_NBASIS 60
#endif
#define HADRONS_DUMP_EP_METADATA(record) \
LOG(Message) << "Eigenpack metadata:" << std::endl;\
LOG(Message) << "* operator" << std::endl;\
LOG(Message) << (record).operatorXml << std::endl;\
LOG(Message) << "* solver" << std::endl;\
LOG(Message) << (record).solverXml << std::endl;
struct PackRecord
{
std::string operatorXml, solverXml;
};
struct VecRecord: Serializable
{
GRID_SERIALIZABLE_CLASS_MEMBERS(VecRecord,
unsigned int, index,
double, eval);
VecRecord(void): index(0), eval(0.) {}
};
namespace EigenPackIo
{
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inline void readHeader(PackRecord &record, ScidacReader &binReader)
{
std::string recordXml;
binReader.readLimeObject(recordXml, SCIDAC_FILE_XML);
XmlReader xmlReader(recordXml, true, "eigenPackPar");
xmlReader.push();
xmlReader.readCurrentSubtree(record.operatorXml);
xmlReader.nextElement();
xmlReader.readCurrentSubtree(record.solverXml);
}
template <typename T, typename TIo = T>
void readElement(T &evec, RealD &eval, const unsigned int index,
ScidacReader &binReader, TIo *ioBuf = nullptr)
{
VecRecord vecRecord;
LOG(Message) << "Reading eigenvector " << index << std::endl;
if (ioBuf == nullptr)
{
binReader.readScidacFieldRecord(evec, vecRecord);
}
else
{
binReader.readScidacFieldRecord(*ioBuf, vecRecord);
precisionChange(evec, *ioBuf);
}
if (vecRecord.index != index)
{
HADRONS_ERROR(Io, "Eigenvector " + std::to_string(index) + " has a"
+ " wrong index (expected " + std::to_string(vecRecord.index)
+ ")");
}
eval = vecRecord.eval;
}
template <typename T, typename TIo = T>
static void readPack(std::vector<T> &evec, std::vector<RealD> &eval,
PackRecord &record, const std::string filename,
const unsigned int size, bool multiFile,
GridBase *gridIo = nullptr)
{
std::unique_ptr<TIo> ioBuf{nullptr};
ScidacReader binReader;
if (typeHash<T>() != typeHash<TIo>())
{
if (gridIo == nullptr)
{
HADRONS_ERROR(Definition,
"I/O type different from vector type but null I/O grid passed");
}
ioBuf.reset(new TIo(gridIo));
}
if (multiFile)
{
std::string fullFilename;
for(int k = 0; k < size; ++k)
{
fullFilename = filename + "/v" + std::to_string(k) + ".bin";
binReader.open(fullFilename);
readHeader(record, binReader);
readElement(evec[k], eval[k], k, binReader, ioBuf.get());
binReader.close();
}
}
else
{
binReader.open(filename);
readHeader(record, binReader);
for(int k = 0; k < size; ++k)
{
readElement(evec[k], eval[k], k, binReader, ioBuf.get());
}
binReader.close();
}
}
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inline void writeHeader(ScidacWriter &binWriter, PackRecord &record)
{
XmlWriter xmlWriter("", "eigenPackPar");
xmlWriter.pushXmlString(record.operatorXml);
xmlWriter.pushXmlString(record.solverXml);
binWriter.writeLimeObject(1, 1, xmlWriter, "parameters", SCIDAC_FILE_XML);
}
template <typename T, typename TIo = T>
void writeElement(ScidacWriter &binWriter, T &evec, RealD &eval,
const unsigned int index, TIo *ioBuf,
T *testBuf = nullptr)
{
VecRecord vecRecord;
LOG(Message) << "Writing eigenvector " << index << std::endl;
vecRecord.eval = eval;
vecRecord.index = index;
if ((ioBuf == nullptr) || (testBuf == nullptr))
{
binWriter.writeScidacFieldRecord(evec, vecRecord, DEFAULT_ASCII_PREC);
}
else
{
precisionChange(*ioBuf, evec);
precisionChange(*testBuf, *ioBuf);
*testBuf -= evec;
LOG(Message) << "Precision diff norm^2 " << norm2(*testBuf) << std::endl;
binWriter.writeScidacFieldRecord(*ioBuf, vecRecord, DEFAULT_ASCII_PREC);
}
}
template <typename T, typename TIo = T>
static void writePack(const std::string filename, std::vector<T> &evec,
std::vector<RealD> &eval, PackRecord &record,
const unsigned int size, bool multiFile,
GridBase *gridIo = nullptr)
{
GridBase *grid = evec[0].Grid();
std::unique_ptr<TIo> ioBuf{nullptr};
std::unique_ptr<T> testBuf{nullptr};
ScidacWriter binWriter(grid->IsBoss());
if (typeHash<T>() != typeHash<TIo>())
{
if (gridIo == nullptr)
{
HADRONS_ERROR(Definition,
"I/O type different from vector type but null I/O grid passed");
}
ioBuf.reset(new TIo(gridIo));
testBuf.reset(new T(grid));
}
if (multiFile)
{
std::string fullFilename;
for(int k = 0; k < size; ++k)
{
fullFilename = filename + "/v" + std::to_string(k) + ".bin";
makeFileDir(fullFilename, grid);
binWriter.open(fullFilename);
writeHeader(binWriter, record);
writeElement(binWriter, evec[k], eval[k], k, ioBuf.get(), testBuf.get());
binWriter.close();
}
}
else
{
makeFileDir(filename, grid);
binWriter.open(filename);
writeHeader(binWriter, record);
for(int k = 0; k < size; ++k)
{
writeElement(binWriter, evec[k], eval[k], k, ioBuf.get(), testBuf.get());
}
binWriter.close();
}
}
}
template <typename F>
class BaseEigenPack
{
public:
typedef F Field;
public:
std::vector<RealD> eval;
std::vector<F> evec;
PackRecord record;
public:
BaseEigenPack(void) = default;
BaseEigenPack(const size_t size, GridBase *grid)
{
resize(size, grid);
}
virtual ~BaseEigenPack(void) = default;
void resize(const size_t size, GridBase *grid)
{
eval.resize(size);
evec.resize(size, grid);
}
};
template <typename F, typename FIo = F>
class EigenPack: public BaseEigenPack<F>
{
public:
typedef F Field;
typedef FIo FieldIo;
public:
EigenPack(void) = default;
virtual ~EigenPack(void) = default;
EigenPack(const size_t size, GridBase *grid, GridBase *gridIo = nullptr)
: BaseEigenPack<F>(size, grid)
{
if (typeHash<F>() != typeHash<FIo>())
{
if (gridIo == nullptr)
{
HADRONS_ERROR(Definition,
"I/O type different from vector type but null I/O grid passed");
}
}
gridIo_ = gridIo;
}
virtual void read(const std::string fileStem, const bool multiFile, const int traj = -1)
{
EigenPackIo::readPack<F, FIo>(this->evec, this->eval, this->record,
evecFilename(fileStem, traj, multiFile),
this->evec.size(), multiFile, gridIo_);
HADRONS_DUMP_EP_METADATA(this->record);
}
virtual void write(const std::string fileStem, const bool multiFile, const int traj = -1)
{
EigenPackIo::writePack<F, FIo>(evecFilename(fileStem, traj, multiFile),
this->evec, this->eval, this->record,
this->evec.size(), multiFile, gridIo_);
}
protected:
std::string evecFilename(const std::string stem, const int traj, const bool multiFile)
{
std::string t = (traj < 0) ? "" : ("." + std::to_string(traj));
if (multiFile)
{
return stem + t;
}
else
{
return stem + t + ".bin";
}
}
protected:
GridBase *gridIo_;
};
template <typename FineF, typename CoarseF,
typename FineFIo = FineF, typename CoarseFIo = CoarseF>
class CoarseEigenPack: public EigenPack<FineF, FineFIo>
{
public:
typedef CoarseF CoarseField;
std::vector<CoarseF> evecCoarse;
std::vector<RealD> evalCoarse;
public:
CoarseEigenPack(void) = default;
virtual ~CoarseEigenPack(void) = default;
CoarseEigenPack(const size_t sizeFine, const size_t sizeCoarse,
GridBase *gridFine, GridBase *gridCoarse,
GridBase *gridFineIo = nullptr,
GridBase *gridCoarseIo = nullptr)
{
if (typeHash<FineF>() != typeHash<FineFIo>())
{
if (gridFineIo == nullptr)
{
HADRONS_ERROR(Definition,
"Fine I/O type different from vector type but null fine I/O grid passed");
}
}
if (typeHash<CoarseF>() != typeHash<CoarseFIo>())
{
if (gridCoarseIo == nullptr)
{
HADRONS_ERROR(Definition,
"Coarse I/O type different from vector type but null coarse I/O grid passed");
}
}
this->gridIo_ = gridFineIo;
gridCoarseIo_ = gridCoarseIo;
resize(sizeFine, sizeCoarse, gridFine, gridCoarse);
}
void resize(const size_t sizeFine, const size_t sizeCoarse,
GridBase *gridFine, GridBase *gridCoarse)
{
EigenPack<FineF, FineFIo>::resize(sizeFine, gridFine);
evalCoarse.resize(sizeCoarse);
evecCoarse.resize(sizeCoarse, gridCoarse);
}
void readFine(const std::string fileStem, const bool multiFile, const int traj = -1)
{
EigenPack<FineF, FineFIo>::read(fileStem + "_fine", multiFile, traj);
}
void readCoarse(const std::string fileStem, const bool multiFile, const int traj = -1)
{
PackRecord dummy;
EigenPackIo::readPack<CoarseF, CoarseFIo>(evecCoarse, evalCoarse, dummy,
this->evecFilename(fileStem + "_coarse", traj, multiFile),
evecCoarse.size(), multiFile, gridCoarseIo_);
}
virtual void read(const std::string fileStem, const bool multiFile, const int traj = -1)
{
readFine(fileStem, multiFile, traj);
readCoarse(fileStem, multiFile, traj);
}
void writeFine(const std::string fileStem, const bool multiFile, const int traj = -1)
{
EigenPack<FineF, FineFIo>::write(fileStem + "_fine", multiFile, traj);
}
void writeCoarse(const std::string fileStem, const bool multiFile, const int traj = -1)
{
EigenPackIo::writePack<CoarseF, CoarseFIo>(this->evecFilename(fileStem + "_coarse", traj, multiFile),
evecCoarse, evalCoarse, this->record,
evecCoarse.size(), multiFile, gridCoarseIo_);
}
virtual void write(const std::string fileStem, const bool multiFile, const int traj = -1)
{
writeFine(fileStem, multiFile, traj);
writeCoarse(fileStem, multiFile, traj);
}
private:
GridBase *gridCoarseIo_;
};
template <typename FImpl>
using BaseFermionEigenPack = BaseEigenPack<typename FImpl::FermionField>;
template <typename FImpl, typename FImplIo = FImpl>
using FermionEigenPack = EigenPack<typename FImpl::FermionField, typename FImplIo::FermionField>;
template <typename FImpl, int nBasis, typename FImplIo = FImpl>
using CoarseFermionEigenPack = CoarseEigenPack<
typename FImpl::FermionField,
typename LocalCoherenceLanczos<typename FImpl::SiteSpinor,
typename FImpl::SiteComplex,
nBasis>::CoarseField,
typename FImplIo::FermionField,
typename LocalCoherenceLanczos<typename FImplIo::SiteSpinor,
typename FImplIo::SiteComplex,
nBasis>::CoarseField>;
#undef HADRONS_DUMP_EP_METADATA
END_HADRONS_NAMESPACE
#endif // Hadrons_EigenPack_hpp_