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https://github.com/paboyle/Grid.git
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374 lines
11 KiB
C++
374 lines
11 KiB
C++
/*************************************************************************************
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Grid physics library, www.github.com/paboyle/Grid
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Source file: ./lib/cshift/Cshift_common.h
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Copyright (C) 2015
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Author: Peter Boyle <paboyle@ph.ed.ac.uk>
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This program is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 2 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License along
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with this program; if not, write to the Free Software Foundation, Inc.,
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51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
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See the full license in the file "LICENSE" in the top level distribution directory
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*************************************************************************************/
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/* END LEGAL */
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#ifndef _GRID_CSHIFT_COMMON_H_
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#define _GRID_CSHIFT_COMMON_H_
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NAMESPACE_BEGIN(Grid);
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///////////////////////////////////////////////////////////////////
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// Gather for when there is no need to SIMD split
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///////////////////////////////////////////////////////////////////
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template<class vobj> void
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Gather_plane_simple (const Lattice<vobj> &rhs,commVector<vobj> &buffer,int dimension,int plane,int cbmask, int off=0)
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{
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int rd = rhs._grid->_rdimensions[dimension];
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if ( !rhs._grid->CheckerBoarded(dimension) ) {
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cbmask = 0x3;
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}
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int so=plane*rhs._grid->_ostride[dimension]; // base offset for start of plane
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int e1=rhs._grid->_slice_nblock[dimension];
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int e2=rhs._grid->_slice_block[dimension];
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int stride=rhs._grid->_slice_stride[dimension];
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if ( cbmask == 0x3 ) {
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thread_loop_collapse( (int n=0;n<e1;n++) ,
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for(int b=0;b<e2;b++){
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int o = n*stride;
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int bo = n*e2;
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buffer[off+bo+b]=rhs._odata[so+o+b];
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}
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);
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} else {
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int bo=0;
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std::vector<std::pair<int,int> > table;
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for(int n=0;n<e1;n++){
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for(int b=0;b<e2;b++){
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int o = n*stride;
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int ocb=1<<rhs._grid->CheckerBoardFromOindex(o+b);
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if ( ocb &cbmask ) {
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table.push_back(std::pair<int,int> (bo++,o+b));
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}
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}
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}
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thread_loop( (int i=0;i<table.size();i++),{
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buffer[off+table[i].first]=rhs._odata[so+table[i].second];
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});
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}
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}
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///////////////////////////////////////////////////////////////////
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// Gather for when there *is* need to SIMD split
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///////////////////////////////////////////////////////////////////
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template<class vobj> void
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Gather_plane_extract(const Lattice<vobj> &rhs,std::vector<typename vobj::scalar_object *> pointers,int dimension,int plane,int cbmask)
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{
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int rd = rhs._grid->_rdimensions[dimension];
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if ( !rhs._grid->CheckerBoarded(dimension) ) {
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cbmask = 0x3;
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}
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int so = plane*rhs._grid->_ostride[dimension]; // base offset for start of plane
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int e1=rhs._grid->_slice_nblock[dimension];
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int e2=rhs._grid->_slice_block[dimension];
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int n1=rhs._grid->_slice_stride[dimension];
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if ( cbmask ==0x3){
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thread_loop_collapse( (int n=0;n<e1;n++), {
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for(int b=0;b<e2;b++){
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int o = n*n1;
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int offset = b+n*e2;
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vobj temp =rhs._odata[so+o+b];
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extract<vobj>(temp,pointers,offset);
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}
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});
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} else {
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// Case of SIMD split AND checker dim cannot currently be hit, except in
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// Test_cshift_red_black code.
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std::cout << " Dense packed buffer WARNING " <<std::endl;
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thread_loop_collapse( (int n=0;n<e1;n++),{
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for(int b=0;b<e2;b++){
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int o=n*n1;
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int ocb=1<<rhs._grid->CheckerBoardFromOindex(o+b);
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int offset = b+n*e2;
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if ( ocb & cbmask ) {
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vobj temp =rhs._odata[so+o+b];
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extract<vobj>(temp,pointers,offset);
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}
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}
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});
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}
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}
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//////////////////////////////////////////////////////
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// Scatter for when there is no need to SIMD split
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//////////////////////////////////////////////////////
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template<class vobj> void Scatter_plane_simple (Lattice<vobj> &rhs,commVector<vobj> &buffer, int dimension,int plane,int cbmask)
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{
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int rd = rhs._grid->_rdimensions[dimension];
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if ( !rhs._grid->CheckerBoarded(dimension) ) {
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cbmask=0x3;
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}
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int so = plane*rhs._grid->_ostride[dimension]; // base offset for start of plane
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int e1=rhs._grid->_slice_nblock[dimension];
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int e2=rhs._grid->_slice_block[dimension];
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int stride=rhs._grid->_slice_stride[dimension];
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if ( cbmask ==0x3 ) {
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thread_loop_collapse( (int n=0;n<e1;n++),{
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for(int b=0;b<e2;b++){
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int o =n*rhs._grid->_slice_stride[dimension];
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int bo =n*rhs._grid->_slice_block[dimension];
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rhs._odata[so+o+b]=buffer[bo+b];
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}
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});
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} else {
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std::vector<std::pair<int,int> > table;
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int bo=0;
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for(int n=0;n<e1;n++){
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for(int b=0;b<e2;b++){
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int o =n*rhs._grid->_slice_stride[dimension];
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int ocb=1<<rhs._grid->CheckerBoardFromOindex(o+b);// Could easily be a table lookup
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if ( ocb & cbmask ) {
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table.push_back(std::pair<int,int> (so+o+b,bo++));
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}
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}
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}
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thread_loop( (int i=0;i<table.size();i++),{
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rhs._odata[table[i].first]=buffer[table[i].second];
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});
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}
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}
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//////////////////////////////////////////////////////
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// Scatter for when there *is* need to SIMD split
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//////////////////////////////////////////////////////
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template<class vobj> void Scatter_plane_merge(Lattice<vobj> &rhs,std::vector<typename vobj::scalar_object *> pointers,int dimension,int plane,int cbmask)
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{
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int rd = rhs._grid->_rdimensions[dimension];
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if ( !rhs._grid->CheckerBoarded(dimension) ) {
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cbmask=0x3;
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}
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int so = plane*rhs._grid->_ostride[dimension]; // base offset for start of plane
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int e1=rhs._grid->_slice_nblock[dimension];
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int e2=rhs._grid->_slice_block[dimension];
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if(cbmask ==0x3 ) {
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thread_loop_collapse( (int n=0;n<e1;n++),{
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for(int b=0;b<e2;b++){
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int o = n*rhs._grid->_slice_stride[dimension];
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int offset = b+n*rhs._grid->_slice_block[dimension];
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merge(rhs._odata[so+o+b],pointers,offset);
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}
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});
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} else {
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// Case of SIMD split AND checker dim cannot currently be hit, except in
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// Test_cshift_red_black code.
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// std::cout << "Scatter_plane merge assert(0); think this is buggy FIXME "<< std::endl;// think this is buggy FIXME
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std::cout<<" Unthreaded warning -- buffer is not densely packed ??"<<std::endl;
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for(int n=0;n<e1;n++){
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for(int b=0;b<e2;b++){
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int o = n*rhs._grid->_slice_stride[dimension];
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int offset = b+n*rhs._grid->_slice_block[dimension];
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int ocb=1<<rhs._grid->CheckerBoardFromOindex(o+b);
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if ( ocb&cbmask ) {
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merge(rhs._odata[so+o+b],pointers,offset);
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}
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}
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}
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}
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}
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//////////////////////////////////////////////////////
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// local to node block strided copies
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//////////////////////////////////////////////////////
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template<class vobj> void Copy_plane(Lattice<vobj>& lhs,const Lattice<vobj> &rhs, int dimension,int lplane,int rplane,int cbmask)
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{
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int rd = rhs._grid->_rdimensions[dimension];
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if ( !rhs._grid->CheckerBoarded(dimension) ) {
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cbmask=0x3;
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}
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int ro = rplane*rhs._grid->_ostride[dimension]; // base offset for start of plane
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int lo = lplane*lhs._grid->_ostride[dimension]; // base offset for start of plane
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int e1=rhs._grid->_slice_nblock[dimension]; // clearly loop invariant for icpc
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int e2=rhs._grid->_slice_block[dimension];
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int stride = rhs._grid->_slice_stride[dimension];
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if(cbmask == 0x3 ){
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thread_loop_collapse( (int n=0;n<e1;n++),{
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for(int b=0;b<e2;b++){
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int o =n*stride+b;
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//lhs._odata[lo+o]=rhs._odata[ro+o];
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vstream(lhs._odata[lo+o],rhs._odata[ro+o]);
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}
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});
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} else {
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thread_loop_collapse( (int n=0;n<e1;n++),{
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for(int b=0;b<e2;b++){
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int o =n*stride+b;
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int ocb=1<<lhs._grid->CheckerBoardFromOindex(o);
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if ( ocb&cbmask ) {
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//lhs._odata[lo+o]=rhs._odata[ro+o];
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vstream(lhs._odata[lo+o],rhs._odata[ro+o]);
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}
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}
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});
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}
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}
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template<class vobj> void Copy_plane_permute(Lattice<vobj>& lhs,const Lattice<vobj> &rhs, int dimension,int lplane,int rplane,int cbmask,int permute_type)
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{
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int rd = rhs._grid->_rdimensions[dimension];
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if ( !rhs._grid->CheckerBoarded(dimension) ) {
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cbmask=0x3;
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}
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int ro = rplane*rhs._grid->_ostride[dimension]; // base offset for start of plane
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int lo = lplane*lhs._grid->_ostride[dimension]; // base offset for start of plane
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int e1=rhs._grid->_slice_nblock[dimension];
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int e2=rhs._grid->_slice_block [dimension];
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int stride = rhs._grid->_slice_stride[dimension];
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thread_loop_collapse( (int n=0;n<e1;n++),{
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for(int b=0;b<e2;b++){
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int o =n*stride;
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int ocb=1<<lhs._grid->CheckerBoardFromOindex(o+b);
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if ( ocb&cbmask ) {
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permute(lhs._odata[lo+o+b],rhs._odata[ro+o+b],permute_type);
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}
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}
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});
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}
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//////////////////////////////////////////////////////
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// Local to node Cshift
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//////////////////////////////////////////////////////
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template<class vobj> void Cshift_local(Lattice<vobj>& ret,const Lattice<vobj> &rhs,int dimension,int shift)
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{
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int sshift[2];
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sshift[0] = rhs._grid->CheckerBoardShiftForCB(rhs.checkerboard,dimension,shift,Even);
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sshift[1] = rhs._grid->CheckerBoardShiftForCB(rhs.checkerboard,dimension,shift,Odd);
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if ( sshift[0] == sshift[1] ) {
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Cshift_local(ret,rhs,dimension,shift,0x3);
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} else {
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Cshift_local(ret,rhs,dimension,shift,0x1);// if checkerboard is unfavourable take two passes
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Cshift_local(ret,rhs,dimension,shift,0x2);// both with block stride loop iteration
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}
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}
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template<class vobj> Lattice<vobj> Cshift_local(Lattice<vobj> &ret,const Lattice<vobj> &rhs,int dimension,int shift,int cbmask)
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{
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GridBase *grid = rhs._grid;
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int fd = grid->_fdimensions[dimension];
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int rd = grid->_rdimensions[dimension];
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int ld = grid->_ldimensions[dimension];
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int gd = grid->_gdimensions[dimension];
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int ly = grid->_simd_layout[dimension];
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// Map to always positive shift modulo global full dimension.
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shift = (shift+fd)%fd;
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// the permute type
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ret.checkerboard = grid->CheckerBoardDestination(rhs.checkerboard,shift,dimension);
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int permute_dim =grid->PermuteDim(dimension);
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int permute_type=grid->PermuteType(dimension);
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int permute_type_dist;
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for(int x=0;x<rd;x++){
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// int o = 0;
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int bo = x * grid->_ostride[dimension];
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int cb= (cbmask==0x2)? Odd : Even;
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int sshift = grid->CheckerBoardShiftForCB(rhs.checkerboard,dimension,shift,cb);
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int sx = (x+sshift)%rd;
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// FIXME : This must change where we have a
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// Rotate slice.
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// Document how this works ; why didn't I do this when I first wrote it...
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// wrap is whether sshift > rd.
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// num is sshift mod rd.
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//
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// shift 7
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//
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// XoXo YcYc
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// oXoX cYcY
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// XoXo YcYc
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// oXoX cYcY
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//
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// sshift --
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//
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// XX YY ; 3
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// XX YY ; 0
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// XX YY ; 3
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// XX YY ; 0
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//
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int permute_slice=0;
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if(permute_dim){
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int wrap = sshift/rd; wrap=wrap % ly;
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int num = sshift%rd;
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if ( x< rd-num ) permute_slice=wrap;
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else permute_slice = (wrap+1)%ly;
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if ( (ly>2) && (permute_slice) ) {
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assert(permute_type & RotateBit);
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permute_type_dist = permute_type|permute_slice;
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} else {
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permute_type_dist = permute_type;
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}
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}
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if ( permute_slice ) Copy_plane_permute(ret,rhs,dimension,x,sx,cbmask,permute_type_dist);
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else Copy_plane(ret,rhs,dimension,x,sx,cbmask);
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}
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return ret;
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}
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NAMESPACE_END(Grid);
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#endif
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