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Grid/Grid_Cartesian.h

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2015-03-04 03:12:19 +00:00
#include "Grid.h"
#include "Grid_vComplexD.h"
namespace dpo{
class GridCartesian: public Grid {
public:
virtual int CheckerBoard(std::vector<int> site){
return 0;
}
virtual int CheckerBoardDestination(int cb,int shift){
return 0;
}
virtual int CheckerBoardShift(int source_cb,int dim,int shift){
return shift;
}
GridCartesian(std::vector<int> &dimensions,std::vector<int> layout)
{
///////////////////////
// Grid information
///////////////////////
_ndimension = dimensions.size();
_dimensions.resize(_ndimension);
_rdimensions.resize(_ndimension);
_layout.resize(_ndimension);
_ostride.resize(_ndimension);
_istride.resize(_ndimension);
_osites = 1;
_isites = 1;
for(int d=0;d<_ndimension;d++){
_dimensions[d] = dimensions[d];
_layout[d] = layout[d];
// Use a reduced simd grid
_rdimensions[d]= _dimensions[d]/_layout[d];
_osites *= _rdimensions[d];
_isites *= _layout[d];
// Addressing support
if ( d==0 ) {
_ostride[d] = 1;
_istride[d] = 1;
} else {
_ostride[d] = _ostride[d-1]*_rdimensions[d-1];
_istride[d] = _istride[d-1]*_layout[d-1];
}
}
///////////////////////
// subplane information
///////////////////////
_slice_block.resize(_ndimension);
_slice_stride.resize(_ndimension);
_slice_nblock.resize(_ndimension);
int block =1;
int nblock=1;
for(int d=0;d<_ndimension;d++) nblock*=_rdimensions[d];
for(int d=0;d<_ndimension;d++){
nblock/=_rdimensions[d];
_slice_block[d] =block;
_slice_stride[d]=_ostride[d]*_rdimensions[d];
_slice_nblock[d]=nblock;
block = block*_rdimensions[d];
}
if ( _isites != vComplex::Nsimd()) {
printf("bad layout for grid isites %d Nsimd %d\n",_isites,vComplex::Nsimd());
exit(0);
}
};
};
// Specialise this for red black grids storing half the data like a chess board.
class GridRedBlackCartesian : public Grid
{
public:
virtual int CheckerBoard(std::vector<int> site){
return site[0]&0x1;
}
virtual int CheckerBoardShift(int source_cb,int dim,int shift){
if ( dim == 0 ){
int fulldim =2*_dimensions[0];
shift = (shift+fulldim)%fulldim;
if ( source_cb ) {
// Shift 0,1 -> 0
return (shift+1)/2;
} else {
// Shift 0->0, 1 -> 1, 2->1
return (shift)/2;
}
} else {
return shift;
}
}
virtual int CheckerBoardDestination(int source_cb,int shift){
if ((shift+2*_dimensions[0])&0x1) {
return 1-source_cb;
} else {
return source_cb;
}
};
GridRedBlackCartesian(std::vector<int> &dimensions,std::vector<int> layout)
{
///////////////////////
// Grid information
///////////////////////
_ndimension = dimensions.size();
_dimensions.resize(_ndimension);
_rdimensions.resize(_ndimension);
_layout.resize(_ndimension);
_ostride.resize(_ndimension);
_istride.resize(_ndimension);
_osites = 1;
_isites = 1;
for(int d=0;d<_ndimension;d++){
_dimensions[d] = dimensions[d];
_dimensions[0] = dimensions[0]/2;
_layout[d] = layout[d];
// Use a reduced simd grid
_rdimensions[d]= _dimensions[d]/_layout[d];
_osites *= _rdimensions[d];
_isites *= _layout[d];
// Addressing support
if ( d==0 ) {
_ostride[d] = 1;
_istride[d] = 1;
} else {
_ostride[d] = _ostride[d-1]*_rdimensions[d-1];
_istride[d] = _istride[d-1]*_layout[d-1];
}
}
////////////////////////////////////////////////////////////////////////////////////////////
// subplane information
// It may be worth the investment of generating a more general subplane "iterator",
// and providing support for threads grabbing a unit of allocation.
////////////////////////////////////////////////////////////////////////////////////////////
_slice_block.resize(_ndimension);
_slice_stride.resize(_ndimension);
_slice_nblock.resize(_ndimension);
int block =1;
int nblock=1;
for(int d=0;d<_ndimension;d++) nblock*=_rdimensions[d];
for(int d=0;d<_ndimension;d++){
nblock/=_rdimensions[d];
_slice_block[d] =block;
_slice_stride[d]=_ostride[d]*_rdimensions[d];
_slice_nblock[d]=nblock;
block = block*_rdimensions[d];
}
if ( _isites != vComplex::Nsimd()) {
printf("bad layout for grid isites %d Nsimd %d\n",_isites,vComplex::Nsimd());
exit(0);
}
};
protected:
virtual int oIndex(std::vector<int> &coor)
{
int idx=_ostride[0]*((coor[0]/2)%_rdimensions[0]);
for(int d=1;d<_ndimension;d++) idx+=_ostride[d]*(coor[d]%_rdimensions[d]);
return idx;
};
};
}