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Grid/lib/lattice/Lattice_base.h

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/*************************************************************************************
Grid physics library, www.github.com/paboyle/Grid
Source file: ./lib/lattice/Lattice_base.h
Copyright (C) 2015
Author: Azusa Yamaguchi <ayamaguc@staffmail.ed.ac.uk>
Author: Peter Boyle <paboyle@ph.ed.ac.uk>
Author: paboyle <paboyle@ph.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
*************************************************************************************/
/* END LEGAL */
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#ifndef GRID_LATTICE_BASE_H
#define GRID_LATTICE_BASE_H
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#define STREAMING_STORES
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namespace Grid {
// TODO:
// mac,real,imag
// Functionality:
// -=,+=,*=,()
// add,+,sub,-,mult,mac,*
// adj,conjugate
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// real,imag
// transpose,transposeIndex
// trace,traceIndex
// peekIndex
// innerProduct,outerProduct,
// localNorm2
// localInnerProduct
extern int GridCshiftPermuteMap[4][16];
////////////////////////////////////////////////
// Basic expressions used in Expression Template
////////////////////////////////////////////////
class LatticeBase
{
public:
virtual ~LatticeBase(void) = default;
GridBase *_grid;
};
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class LatticeExpressionBase {};
template <typename Op, typename T1>
class LatticeUnaryExpression : public std::pair<Op,std::tuple<T1> > , public LatticeExpressionBase {
public:
LatticeUnaryExpression(const std::pair<Op,std::tuple<T1> > &arg): std::pair<Op,std::tuple<T1> >(arg) {};
};
template <typename Op, typename T1, typename T2>
class LatticeBinaryExpression : public std::pair<Op,std::tuple<T1,T2> > , public LatticeExpressionBase {
public:
LatticeBinaryExpression(const std::pair<Op,std::tuple<T1,T2> > &arg): std::pair<Op,std::tuple<T1,T2> >(arg) {};
};
template <typename Op, typename T1, typename T2, typename T3>
class LatticeTrinaryExpression :public std::pair<Op,std::tuple<T1,T2,T3> >, public LatticeExpressionBase {
public:
LatticeTrinaryExpression(const std::pair<Op,std::tuple<T1,T2,T3> > &arg): std::pair<Op,std::tuple<T1,T2,T3> >(arg) {};
};
void inline conformable(GridBase *lhs,GridBase *rhs)
{
assert(lhs == rhs);
}
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template<class vobj>
class Lattice : public LatticeBase
{
public:
int checkerboard;
Vector<vobj> _odata;
// to pthread need a computable loop where loop induction is not required
int begin(void) { return 0;};
int end(void) { return _odata.size(); }
vobj & operator[](int i) { return _odata[i]; };
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const vobj & operator[](int i) const { return _odata[i]; };
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public:
typedef typename vobj::scalar_type scalar_type;
typedef typename vobj::vector_type vector_type;
typedef vobj vector_object;
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////////////////////////////////////////////////////////////////////////////////
// Expression Template closure support
////////////////////////////////////////////////////////////////////////////////
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template <typename Op, typename T1> strong_inline Lattice<vobj> & operator=(const LatticeUnaryExpression<Op,T1> &expr)
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{
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GridBase *egrid(nullptr);
GridFromExpression(egrid,expr);
assert(egrid!=nullptr);
conformable(_grid,egrid);
int cb=-1;
CBFromExpression(cb,expr);
assert( (cb==Odd) || (cb==Even));
checkerboard=cb;
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PARALLEL_FOR_LOOP
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for(int ss=0;ss<_grid->oSites();ss++){
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#ifdef STREAMING_STORES
vobj tmp = eval(ss,expr);
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vstream(_odata[ss] ,tmp);
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#else
_odata[ss]=eval(ss,expr);
#endif
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}
return *this;
}
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template <typename Op, typename T1,typename T2> strong_inline Lattice<vobj> & operator=(const LatticeBinaryExpression<Op,T1,T2> &expr)
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{
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GridBase *egrid(nullptr);
GridFromExpression(egrid,expr);
assert(egrid!=nullptr);
conformable(_grid,egrid);
int cb=-1;
CBFromExpression(cb,expr);
assert( (cb==Odd) || (cb==Even));
checkerboard=cb;
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PARALLEL_FOR_LOOP
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for(int ss=0;ss<_grid->oSites();ss++){
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#ifdef STREAMING_STORES
vobj tmp = eval(ss,expr);
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vstream(_odata[ss] ,tmp);
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#else
_odata[ss]=eval(ss,expr);
#endif
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}
return *this;
}
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template <typename Op, typename T1,typename T2,typename T3> strong_inline Lattice<vobj> & operator=(const LatticeTrinaryExpression<Op,T1,T2,T3> &expr)
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{
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GridBase *egrid(nullptr);
GridFromExpression(egrid,expr);
assert(egrid!=nullptr);
conformable(_grid,egrid);
int cb=-1;
CBFromExpression(cb,expr);
assert( (cb==Odd) || (cb==Even));
checkerboard=cb;
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PARALLEL_FOR_LOOP
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for(int ss=0;ss<_grid->oSites();ss++){
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#ifdef STREAMING_STORES
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//vobj tmp = eval(ss,expr);
vstream(_odata[ss] ,eval(ss,expr));
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#else
_odata[ss] = eval(ss,expr);
#endif
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}
return *this;
}
//GridFromExpression is tricky to do
template<class Op,class T1>
Lattice(const LatticeUnaryExpression<Op,T1> & expr) {
_grid = nullptr;
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GridFromExpression(_grid,expr);
assert(_grid!=nullptr);
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int cb=-1;
CBFromExpression(cb,expr);
assert( (cb==Odd) || (cb==Even));
checkerboard=cb;
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_odata.resize(_grid->oSites());
PARALLEL_FOR_LOOP
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for(int ss=0;ss<_grid->oSites();ss++){
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#ifdef STREAMING_STORES
vobj tmp = eval(ss,expr);
vstream(_odata[ss] ,tmp);
#else
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_odata[ss]=eval(ss,expr);
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#endif
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}
};
template<class Op,class T1, class T2>
Lattice(const LatticeBinaryExpression<Op,T1,T2> & expr) {
_grid = nullptr;
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GridFromExpression(_grid,expr);
assert(_grid!=nullptr);
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int cb=-1;
CBFromExpression(cb,expr);
assert( (cb==Odd) || (cb==Even));
checkerboard=cb;
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_odata.resize(_grid->oSites());
PARALLEL_FOR_LOOP
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for(int ss=0;ss<_grid->oSites();ss++){
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#ifdef STREAMING_STORES
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vobj tmp = eval(ss,expr);
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vstream(_odata[ss] ,tmp);
#else
_odata[ss]=eval(ss,expr);
#endif
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}
};
template<class Op,class T1, class T2, class T3>
Lattice(const LatticeTrinaryExpression<Op,T1,T2,T3> & expr) {
_grid = nullptr;
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GridFromExpression(_grid,expr);
assert(_grid!=nullptr);
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int cb=-1;
CBFromExpression(cb,expr);
assert( (cb==Odd) || (cb==Even));
checkerboard=cb;
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_odata.resize(_grid->oSites());
PARALLEL_FOR_LOOP
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for(int ss=0;ss<_grid->oSites();ss++){
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vstream(_odata[ss] ,eval(ss,expr));
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}
};
//////////////////////////////////////////////////////////////////
// Constructor requires "grid" passed.
// what about a default grid?
//////////////////////////////////////////////////////////////////
Lattice(GridBase *grid) : _odata(grid->oSites()) {
_grid = grid;
// _odata.reserve(_grid->oSites());
// _odata.resize(_grid->oSites());
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// std::cout << "Constructing lattice object with Grid pointer "<<_grid<<std::endl;
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assert((((uint64_t)&_odata[0])&0xF) ==0);
checkerboard=0;
}
Lattice(const Lattice& r){ // copy constructor
_grid = r._grid;
checkerboard = r.checkerboard;
_odata.resize(_grid->oSites());// essential
PARALLEL_FOR_LOOP
for(int ss=0;ss<_grid->oSites();ss++){
_odata[ss]=r._odata[ss];
}
}
virtual ~Lattice(void) = default;
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template<class sobj> strong_inline Lattice<vobj> & operator = (const sobj & r){
PARALLEL_FOR_LOOP
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for(int ss=0;ss<_grid->oSites();ss++){
this->_odata[ss]=r;
}
return *this;
}
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template<class robj> strong_inline Lattice<vobj> & operator = (const Lattice<robj> & r){
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this->checkerboard = r.checkerboard;
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conformable(*this,r);
PARALLEL_FOR_LOOP
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for(int ss=0;ss<_grid->oSites();ss++){
this->_odata[ss]=r._odata[ss];
}
return *this;
}
// *=,+=,-= operators inherit behvour from correspond */+/- operation
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template<class T> strong_inline Lattice<vobj> &operator *=(const T &r) {
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*this = (*this)*r;
return *this;
}
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template<class T> strong_inline Lattice<vobj> &operator -=(const T &r) {
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*this = (*this)-r;
return *this;
}
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template<class T> strong_inline Lattice<vobj> &operator +=(const T &r) {
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*this = (*this)+r;
return *this;
}
}; // class Lattice
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template<class vobj> std::ostream& operator<< (std::ostream& stream, const Lattice<vobj> &o){
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std::vector<int> gcoor;
typedef typename vobj::scalar_object sobj;
sobj ss;
for(int g=0;g<o._grid->_gsites;g++){
o._grid->GlobalIndexToGlobalCoor(g,gcoor);
peekSite(ss,o,gcoor);
stream<<"[";
for(int d=0;d<gcoor.size();d++){
stream<<gcoor[d];
if(d!=gcoor.size()-1) stream<<",";
}
stream<<"]\t";
stream<<ss<<std::endl;
}
return stream;
}
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}
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#include "Lattice_conformable.h"
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#define GRID_LATTICE_EXPRESSION_TEMPLATES
#ifdef GRID_LATTICE_EXPRESSION_TEMPLATES
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#include "Lattice_ET.h"
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#else
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#include "Lattice_overload.h"
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#endif
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#include "Lattice_arith.h"
#include "Lattice_trace.h"
#include "Lattice_transpose.h"
#include "Lattice_local.h"
#include "Lattice_reduction.h"
#include "Lattice_peekpoke.h"
#include "Lattice_reality.h"
#include "Lattice_comparison_utils.h"
#include "Lattice_comparison.h"
#include "Lattice_coordinate.h"
#include "Lattice_where.h"
#include "Lattice_rng.h"
#include "Lattice_unary.h"
#include "Lattice_transfer.h"
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#endif