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708 lines
25 KiB
C++
708 lines
25 KiB
C++
/*************************************************************************************
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Grid physics library, www.github.com/paboyle/Grid
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Source file: ./lib/parallelIO/BinaryIO.h
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Copyright (C) 2015
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Author: Peter Boyle <paboyle@ph.ed.ac.uk>
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Author: Guido Cossu<guido.cossu@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_BINARY_IO_H
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#define GRID_BINARY_IO_H
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#if defined(GRID_COMMS_MPI) || defined(GRID_COMMS_MPI3) || defined(GRID_COMMS_MPIT)
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#define USE_MPI_IO
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#else
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#undef USE_MPI_IO
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#endif
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#ifdef HAVE_ENDIAN_H
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#include <endian.h>
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#endif
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#include <arpa/inet.h>
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#include <algorithm>
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NAMESPACE_BEGIN(Grid);
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/////////////////////////////////////////////////////////////////////////////////
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// Byte reversal garbage
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/////////////////////////////////////////////////////////////////////////////////
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inline uint32_t byte_reverse32(uint32_t f) {
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f = ((f&0xFF)<<24) | ((f&0xFF00)<<8) | ((f&0xFF0000)>>8) | ((f&0xFF000000UL)>>24) ;
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return f;
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}
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inline uint64_t byte_reverse64(uint64_t f) {
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uint64_t g;
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g = ((f&0xFF)<<24) | ((f&0xFF00)<<8) | ((f&0xFF0000)>>8) | ((f&0xFF000000UL)>>24) ;
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g = g << 32;
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f = f >> 32;
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g|= ((f&0xFF)<<24) | ((f&0xFF00)<<8) | ((f&0xFF0000)>>8) | ((f&0xFF000000UL)>>24) ;
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return g;
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}
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#if BYTE_ORDER == BIG_ENDIAN
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inline uint64_t Grid_ntohll(uint64_t A) { return A; }
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#else
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inline uint64_t Grid_ntohll(uint64_t A) {
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return byte_reverse64(A);
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}
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#endif
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// A little helper
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inline void removeWhitespace(std::string &key)
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{
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key.erase(std::remove_if(key.begin(), key.end(), ::isspace),key.end());
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}
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///////////////////////////////////////////////////////////////////////////////////////////////////
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// Static class holding the parallel IO code
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// Could just use a namespace
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///////////////////////////////////////////////////////////////////////////////////////////////////
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class BinaryIO {
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public:
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/////////////////////////////////////////////////////////////////////////////
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// more byte manipulation helpers
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/////////////////////////////////////////////////////////////////////////////
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template<class vobj> static inline void Uint32Checksum(Lattice<vobj> &lat,uint32_t &nersc_csum)
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{
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typedef typename vobj::scalar_object sobj;
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GridBase *grid = lat.Grid();
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int lsites = grid->lSites();
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std::vector<sobj> scalardata(lsites);
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unvectorizeToLexOrdArray(scalardata,lat);
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NerscChecksum(grid,scalardata,nersc_csum);
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}
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template <class fobj>
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static inline void NerscChecksum(GridBase *grid, std::vector<fobj> &fbuf, uint32_t &nersc_csum)
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{
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const uint64_t size32 = sizeof(fobj) / sizeof(uint32_t);
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uint64_t lsites = grid->lSites();
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if (fbuf.size() == 1) {
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lsites = 1;
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}
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thread_region {
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uint32_t nersc_csum_thr = 0;
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thread_loop( (uint64_t local_site = 0; local_site < lsites; local_site++), {
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uint32_t *site_buf = (uint32_t *)&fbuf[local_site];
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for (uint64_t j = 0; j < size32; j++) {
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nersc_csum_thr = nersc_csum_thr + site_buf[j];
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}
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});
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thread_critical {
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nersc_csum += nersc_csum_thr;
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}
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}
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}
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template<class fobj> static inline void ScidacChecksum(GridBase *grid,std::vector<fobj> &fbuf,uint32_t &scidac_csuma,uint32_t &scidac_csumb)
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{
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int nd = grid->_ndimension;
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uint64_t lsites =grid->lSites();
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if (fbuf.size()==1) {
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lsites=1;
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}
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Coordinate local_vol =grid->LocalDimensions();
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Coordinate local_start =grid->LocalStarts();
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Coordinate global_vol =grid->FullDimensions();
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thread_region {
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Coordinate coor(nd);
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uint32_t scidac_csuma_thr=0;
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uint32_t scidac_csumb_thr=0;
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uint32_t site_crc=0;
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thread_loop( (uint64_t local_site=0;local_site<lsites;local_site++),{
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uint32_t * site_buf = (uint32_t *)&fbuf[local_site];
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/*
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* Scidac csum is rather more heavyweight
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*/
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int global_site;
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Lexicographic::CoorFromIndex(coor,local_site,local_vol);
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for(int d=0;d<nd;d++) {
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coor[d] = coor[d]+local_start[d];
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}
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Lexicographic::IndexFromCoor(coor,global_site,global_vol);
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uint32_t gsite29 = global_site%29;
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uint32_t gsite31 = global_site%31;
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site_crc = crc32(0,(unsigned char *)site_buf,sizeof(fobj));
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// std::cout << "Site "<<local_site << " crc "<<std::hex<<site_crc<<std::dec<<std::endl;
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// std::cout << "Site "<<local_site << std::hex<<site_buf[0] <<site_buf[1]<<std::dec <<std::endl;
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scidac_csuma_thr ^= site_crc<<gsite29 | site_crc>>(32-gsite29);
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scidac_csumb_thr ^= site_crc<<gsite31 | site_crc>>(32-gsite31);
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});
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thread_critical {
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scidac_csuma^= scidac_csuma_thr;
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scidac_csumb^= scidac_csumb_thr;
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}
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}
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}
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// Network is big endian
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static inline void htobe32_v(void *file_object,uint32_t bytes){ be32toh_v(file_object,bytes);}
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static inline void htobe64_v(void *file_object,uint32_t bytes){ be64toh_v(file_object,bytes);}
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static inline void htole32_v(void *file_object,uint32_t bytes){ le32toh_v(file_object,bytes);}
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static inline void htole64_v(void *file_object,uint32_t bytes){ le64toh_v(file_object,bytes);}
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static inline void be32toh_v(void *file_object,uint64_t bytes)
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{
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uint32_t * f = (uint32_t *)file_object;
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uint64_t count = bytes/sizeof(uint32_t);
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thread_loop( (uint64_t i=0;i<count;i++), {
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f[i] = ntohl(f[i]);
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});
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}
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// LE must Swap and switch to host
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static inline void le32toh_v(void *file_object,uint64_t bytes)
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{
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uint32_t *fp = (uint32_t *)file_object;
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uint32_t f;
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uint64_t count = bytes/sizeof(uint32_t);
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thread_loop( (uint64_t i=0;i<count;i++), {
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f = fp[i];
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// got network order and the network to host
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f = ((f&0xFF)<<24) | ((f&0xFF00)<<8) | ((f&0xFF0000)>>8) | ((f&0xFF000000UL)>>24) ;
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fp[i] = ntohl(f);
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});
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}
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// BE is same as network
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static inline void be64toh_v(void *file_object,uint64_t bytes)
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{
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uint64_t * f = (uint64_t *)file_object;
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uint64_t count = bytes/sizeof(uint64_t);
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thread_loop( (uint64_t i=0;i<count;i++),{
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f[i] = Grid_ntohll(f[i]);
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});
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}
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// LE must swap and switch;
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static inline void le64toh_v(void *file_object,uint64_t bytes)
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{
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uint64_t *fp = (uint64_t *)file_object;
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uint64_t f,g;
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uint64_t count = bytes/sizeof(uint64_t);
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thread_loop( (uint64_t i=0;i<count;i++), {
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f = fp[i];
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// got network order and the network to host
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g = ((f&0xFF)<<24) | ((f&0xFF00)<<8) | ((f&0xFF0000)>>8) | ((f&0xFF000000UL)>>24) ;
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g = g << 32;
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f = f >> 32;
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g|= ((f&0xFF)<<24) | ((f&0xFF00)<<8) | ((f&0xFF0000)>>8) | ((f&0xFF000000UL)>>24) ;
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fp[i] = Grid_ntohll(g);
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});
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}
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/////////////////////////////////////////////////////////////////////////////
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// Real action:
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// Read or Write distributed lexico array of ANY object to a specific location in file
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//////////////////////////////////////////////////////////////////////////////////////
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static const int BINARYIO_MASTER_APPEND = 0x10;
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static const int BINARYIO_UNORDERED = 0x08;
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static const int BINARYIO_LEXICOGRAPHIC = 0x04;
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static const int BINARYIO_READ = 0x02;
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static const int BINARYIO_WRITE = 0x01;
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template<class word,class fobj>
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static inline void IOobject(word w,
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GridBase *grid,
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std::vector<fobj> &iodata,
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std::string file,
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Integer offset,
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const std::string &format, int control,
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uint32_t &nersc_csum,
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uint32_t &scidac_csuma,
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uint32_t &scidac_csumb)
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{
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grid->Barrier();
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GridStopWatch timer;
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GridStopWatch bstimer;
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nersc_csum=0;
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scidac_csuma=0;
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scidac_csumb=0;
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int ndim = grid->Dimensions();
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int nrank = grid->ProcessorCount();
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int myrank = grid->ThisRank();
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Coordinate psizes = grid->ProcessorGrid();
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Coordinate pcoor = grid->ThisProcessorCoor();
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Coordinate gLattice= grid->GlobalDimensions();
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Coordinate lLattice= grid->LocalDimensions();
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Coordinate lStart(ndim);
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Coordinate gStart(ndim);
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// Flatten the file
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uint64_t lsites = grid->lSites();
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if ( control & BINARYIO_MASTER_APPEND ) {
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assert(iodata.size()==1);
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} else {
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assert(lsites==iodata.size());
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}
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for(int d=0;d<ndim;d++){
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gStart[d] = lLattice[d]*pcoor[d];
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lStart[d] = 0;
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}
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#ifdef USE_MPI_IO
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std::vector<int> distribs(ndim,MPI_DISTRIBUTE_BLOCK);
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std::vector<int> dargs (ndim,MPI_DISTRIBUTE_DFLT_DARG);
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MPI_Datatype mpiObject;
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MPI_Datatype fileArray;
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MPI_Datatype localArray;
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MPI_Datatype mpiword;
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MPI_Offset disp = offset;
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MPI_File fh ;
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MPI_Status status;
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int numword;
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if ( sizeof( word ) == sizeof(float ) ) {
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numword = sizeof(fobj)/sizeof(float);
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mpiword = MPI_FLOAT;
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} else {
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numword = sizeof(fobj)/sizeof(double);
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mpiword = MPI_DOUBLE;
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}
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//////////////////////////////////////////////////////////////////////////////
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// Sobj in MPI phrasing
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//////////////////////////////////////////////////////////////////////////////
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int ierr;
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ierr = MPI_Type_contiguous(numword,mpiword,&mpiObject); assert(ierr==0);
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ierr = MPI_Type_commit(&mpiObject);
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//////////////////////////////////////////////////////////////////////////////
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// File global array data type
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//////////////////////////////////////////////////////////////////////////////
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ierr=MPI_Type_create_subarray(ndim,&gLattice[0],&lLattice[0],&gStart[0],MPI_ORDER_FORTRAN, mpiObject,&fileArray); assert(ierr==0);
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ierr=MPI_Type_commit(&fileArray); assert(ierr==0);
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//////////////////////////////////////////////////////////////////////////////
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// local lattice array
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//////////////////////////////////////////////////////////////////////////////
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ierr=MPI_Type_create_subarray(ndim,&lLattice[0],&lLattice[0],&lStart[0],MPI_ORDER_FORTRAN, mpiObject,&localArray); assert(ierr==0);
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ierr=MPI_Type_commit(&localArray); assert(ierr==0);
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#endif
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//////////////////////////////////////////////////////////////////////////////
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// Byte order
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//////////////////////////////////////////////////////////////////////////////
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int ieee32big = (format == std::string("IEEE32BIG"));
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int ieee32 = (format == std::string("IEEE32"));
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int ieee64big = (format == std::string("IEEE64BIG"));
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int ieee64 = (format == std::string("IEEE64"));
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//////////////////////////////////////////////////////////////////////////////
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// Do the I/O
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//////////////////////////////////////////////////////////////////////////////
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if ( control & BINARYIO_READ ) {
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timer.Start();
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if ( (control & BINARYIO_LEXICOGRAPHIC) && (nrank > 1) ) {
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#ifdef USE_MPI_IO
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std::cout<< GridLogMessage<<"IOobject: MPI read I/O "<< file<< std::endl;
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ierr=MPI_File_open(grid->communicator,(char *) file.c_str(), MPI_MODE_RDONLY, MPI_INFO_NULL, &fh); assert(ierr==0);
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ierr=MPI_File_set_view(fh, disp, mpiObject, fileArray, "native", MPI_INFO_NULL); assert(ierr==0);
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ierr=MPI_File_read_all(fh, &iodata[0], 1, localArray, &status); assert(ierr==0);
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MPI_File_close(&fh);
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MPI_Type_free(&fileArray);
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MPI_Type_free(&localArray);
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#else
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assert(0);
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#endif
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} else {
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std::cout << GridLogMessage <<"IOobject: C++ read I/O " << file << " : "
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<< iodata.size() * sizeof(fobj) << " bytes" << std::endl;
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std::ifstream fin;
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fin.open(file, std::ios::binary | std::ios::in);
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if (control & BINARYIO_MASTER_APPEND)
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{
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fin.seekg(-sizeof(fobj), fin.end);
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}
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else
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{
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fin.seekg(offset + myrank * lsites * sizeof(fobj));
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}
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fin.read((char *)&iodata[0], iodata.size() * sizeof(fobj));
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assert(fin.fail() == 0);
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fin.close();
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}
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timer.Stop();
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grid->Barrier();
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bstimer.Start();
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ScidacChecksum(grid,iodata,scidac_csuma,scidac_csumb);
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if (ieee32big) be32toh_v((void *)&iodata[0], sizeof(fobj)*iodata.size());
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if (ieee32) le32toh_v((void *)&iodata[0], sizeof(fobj)*iodata.size());
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if (ieee64big) be64toh_v((void *)&iodata[0], sizeof(fobj)*iodata.size());
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if (ieee64) le64toh_v((void *)&iodata[0], sizeof(fobj)*iodata.size());
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NerscChecksum(grid,iodata,nersc_csum);
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bstimer.Stop();
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}
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if ( control & BINARYIO_WRITE ) {
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bstimer.Start();
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NerscChecksum(grid,iodata,nersc_csum);
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if (ieee32big) htobe32_v((void *)&iodata[0], sizeof(fobj)*iodata.size());
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if (ieee32) htole32_v((void *)&iodata[0], sizeof(fobj)*iodata.size());
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if (ieee64big) htobe64_v((void *)&iodata[0], sizeof(fobj)*iodata.size());
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if (ieee64) htole64_v((void *)&iodata[0], sizeof(fobj)*iodata.size());
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ScidacChecksum(grid,iodata,scidac_csuma,scidac_csumb);
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bstimer.Stop();
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grid->Barrier();
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timer.Start();
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if ( (control & BINARYIO_LEXICOGRAPHIC) && (nrank > 1) ) {
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#ifdef USE_MPI_IO
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std::cout << GridLogMessage <<"IOobject: MPI write I/O " << file << std::endl;
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ierr = MPI_File_open(grid->communicator, (char *)file.c_str(), MPI_MODE_RDWR | MPI_MODE_CREATE, MPI_INFO_NULL, &fh);
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// std::cout << GridLogMessage << "Checking for errors" << std::endl;
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if (ierr != MPI_SUCCESS)
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{
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char error_string[BUFSIZ];
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int length_of_error_string, error_class;
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MPI_Error_class(ierr, &error_class);
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MPI_Error_string(error_class, error_string, &length_of_error_string);
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fprintf(stderr, "%3d: %s\n", myrank, error_string);
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MPI_Error_string(ierr, error_string, &length_of_error_string);
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fprintf(stderr, "%3d: %s\n", myrank, error_string);
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MPI_Abort(MPI_COMM_WORLD, 1); //assert(ierr == 0);
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}
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std::cout << GridLogDebug << "MPI read I/O set view " << file << std::endl;
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ierr = MPI_File_set_view(fh, disp, mpiObject, fileArray, "native", MPI_INFO_NULL);
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assert(ierr == 0);
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std::cout << GridLogDebug << "MPI read I/O write all " << file << std::endl;
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ierr = MPI_File_write_all(fh, &iodata[0], 1, localArray, &status);
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assert(ierr == 0);
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MPI_File_close(&fh);
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MPI_Type_free(&fileArray);
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MPI_Type_free(&localArray);
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#else
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assert(0);
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#endif
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} else {
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std::cout << GridLogMessage << "IOobject: C++ write I/O " << file << " : "
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<< iodata.size() * sizeof(fobj) << " bytes" << std::endl;
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std::ofstream fout;
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fout.exceptions ( std::fstream::failbit | std::fstream::badbit );
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try {
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fout.open(file,std::ios::binary|std::ios::out|std::ios::in);
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} catch (const std::fstream::failure& exc) {
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std::cout << GridLogError << "Error in opening the file " << file << " for output" <<std::endl;
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std::cout << GridLogError << "Exception description: " << exc.what() << std::endl;
|
|
std::cout << GridLogError << "Probable cause: wrong path, inaccessible location "<< std::endl;
|
|
#ifdef USE_MPI_IO
|
|
MPI_Abort(MPI_COMM_WORLD,1);
|
|
#else
|
|
exit(1);
|
|
#endif
|
|
}
|
|
|
|
if ( control & BINARYIO_MASTER_APPEND ) {
|
|
try {
|
|
fout.seekp(0,fout.end);
|
|
} catch (const std::fstream::failure& exc) {
|
|
std::cout << "Exception in seeking file end " << file << std::endl;
|
|
}
|
|
} else {
|
|
try {
|
|
fout.seekp(offset+myrank*lsites*sizeof(fobj));
|
|
} catch (const std::fstream::failure& exc) {
|
|
std::cout << "Exception in seeking file " << file <<" offset "<< offset << std::endl;
|
|
}
|
|
}
|
|
|
|
try {
|
|
fout.write((char *)&iodata[0],iodata.size()*sizeof(fobj));//assert( fout.fail()==0);
|
|
}
|
|
catch (const std::fstream::failure& exc) {
|
|
std::cout << "Exception in writing file " << file << std::endl;
|
|
std::cout << GridLogError << "Exception description: "<< exc.what() << std::endl;
|
|
#ifdef USE_MPI_IO
|
|
MPI_Abort(MPI_COMM_WORLD,1);
|
|
#else
|
|
exit(1);
|
|
#endif
|
|
}
|
|
fout.close();
|
|
}
|
|
timer.Stop();
|
|
}
|
|
|
|
std::cout<<GridLogMessage<<"IOobject: ";
|
|
if ( control & BINARYIO_READ) std::cout << " read ";
|
|
else std::cout << " write ";
|
|
uint64_t bytes = sizeof(fobj)*iodata.size()*nrank;
|
|
std::cout<< bytes <<" bytes in "<<timer.Elapsed() <<" "
|
|
<< (double)bytes/ (double)timer.useconds() <<" MB/s "<<std::endl;
|
|
|
|
std::cout<<GridLogMessage<<"IOobject: endian and checksum overhead "<<bstimer.Elapsed() <<std::endl;
|
|
|
|
//////////////////////////////////////////////////////////////////////////////
|
|
// Safety check
|
|
//////////////////////////////////////////////////////////////////////////////
|
|
// if the data size is 1 we do not want to sum over the MPI ranks
|
|
if (iodata.size() != 1){
|
|
grid->Barrier();
|
|
grid->GlobalSum(nersc_csum);
|
|
grid->GlobalXOR(scidac_csuma);
|
|
grid->GlobalXOR(scidac_csumb);
|
|
grid->Barrier();
|
|
}
|
|
}
|
|
|
|
/////////////////////////////////////////////////////////////////////////////
|
|
// Read a Lattice of object
|
|
//////////////////////////////////////////////////////////////////////////////////////
|
|
template<class vobj,class fobj,class munger>
|
|
static inline void readLatticeObject(Lattice<vobj> &Umu,
|
|
std::string file,
|
|
munger munge,
|
|
Integer offset,
|
|
const std::string &format,
|
|
uint32_t &nersc_csum,
|
|
uint32_t &scidac_csuma,
|
|
uint32_t &scidac_csumb)
|
|
{
|
|
typedef typename vobj::scalar_object sobj;
|
|
typedef typename vobj::Realified::scalar_type word; word w=0;
|
|
|
|
GridBase *grid = Umu.Grid();
|
|
int lsites = grid->lSites();
|
|
|
|
std::vector<sobj> scalardata(lsites);
|
|
std::vector<fobj> iodata(lsites); // Munge, checksum, byte order in here
|
|
|
|
IOobject(w,grid,iodata,file,offset,format,BINARYIO_READ|BINARYIO_LEXICOGRAPHIC,
|
|
nersc_csum,scidac_csuma,scidac_csumb);
|
|
|
|
GridStopWatch timer;
|
|
timer.Start();
|
|
|
|
thread_loop( (int x=0;x<lsites;x++), { munge(iodata[x], scalardata[x]); });
|
|
|
|
vectorizeFromLexOrdArray(scalardata,Umu);
|
|
grid->Barrier();
|
|
|
|
timer.Stop();
|
|
std::cout<<GridLogMessage<<"readLatticeObject: vectorize overhead "<<timer.Elapsed() <<std::endl;
|
|
}
|
|
|
|
/////////////////////////////////////////////////////////////////////////////
|
|
// Write a Lattice of object
|
|
//////////////////////////////////////////////////////////////////////////////////////
|
|
template<class vobj,class fobj,class munger>
|
|
static inline void writeLatticeObject(Lattice<vobj> &Umu,
|
|
std::string file,
|
|
munger munge,
|
|
Integer offset,
|
|
const std::string &format,
|
|
uint32_t &nersc_csum,
|
|
uint32_t &scidac_csuma,
|
|
uint32_t &scidac_csumb)
|
|
{
|
|
typedef typename vobj::scalar_object sobj;
|
|
typedef typename vobj::Realified::scalar_type word; word w=0;
|
|
GridBase *grid = Umu.Grid();
|
|
int lsites = grid->lSites();
|
|
|
|
std::vector<sobj> scalardata(lsites);
|
|
std::vector<fobj> iodata(lsites); // Munge, checksum, byte order in here
|
|
|
|
//////////////////////////////////////////////////////////////////////////////
|
|
// Munge [ .e.g 3rd row recon ]
|
|
//////////////////////////////////////////////////////////////////////////////
|
|
GridStopWatch timer; timer.Start();
|
|
unvectorizeToLexOrdArray(scalardata,Umu);
|
|
|
|
thread_loop( (int x=0;x<lsites;x++), { munge(scalardata[x],iodata[x]);});
|
|
|
|
grid->Barrier();
|
|
timer.Stop();
|
|
|
|
IOobject(w,grid,iodata,file,offset,format,BINARYIO_WRITE|BINARYIO_LEXICOGRAPHIC,
|
|
nersc_csum,scidac_csuma,scidac_csumb);
|
|
|
|
std::cout<<GridLogMessage<<"writeLatticeObject: unvectorize overhead "<<timer.Elapsed() <<std::endl;
|
|
}
|
|
|
|
/////////////////////////////////////////////////////////////////////////////
|
|
// Read a RNG; use IOobject and lexico map to an array of state
|
|
//////////////////////////////////////////////////////////////////////////////////////
|
|
static inline void readRNG(GridSerialRNG &serial,
|
|
GridParallelRNG ¶llel,
|
|
std::string file,
|
|
Integer offset,
|
|
uint32_t &nersc_csum,
|
|
uint32_t &scidac_csuma,
|
|
uint32_t &scidac_csumb)
|
|
{
|
|
typedef typename GridSerialRNG::RngStateType RngStateType;
|
|
const int RngStateCount = GridSerialRNG::RngStateCount;
|
|
typedef std::array<RngStateType,RngStateCount> RNGstate;
|
|
typedef RngStateType word; word w=0;
|
|
|
|
std::string format = "IEEE32BIG";
|
|
|
|
GridBase *grid = parallel.Grid();
|
|
int gsites = grid->gSites();
|
|
int lsites = grid->lSites();
|
|
|
|
uint32_t nersc_csum_tmp = 0;
|
|
uint32_t scidac_csuma_tmp = 0;
|
|
uint32_t scidac_csumb_tmp = 0;
|
|
|
|
GridStopWatch timer;
|
|
|
|
std::cout << GridLogMessage << "RNG read I/O on file " << file << std::endl;
|
|
|
|
std::vector<RNGstate> iodata(lsites);
|
|
IOobject(w,grid,iodata,file,offset,format,BINARYIO_READ|BINARYIO_LEXICOGRAPHIC,
|
|
nersc_csum,scidac_csuma,scidac_csumb);
|
|
|
|
timer.Start();
|
|
thread_loop( (int lidx=0;lidx<lsites;lidx++),{
|
|
std::vector<RngStateType> tmp(RngStateCount);
|
|
std::copy(iodata[lidx].begin(),iodata[lidx].end(),tmp.begin());
|
|
parallel.SetState(tmp,lidx);
|
|
});
|
|
timer.Stop();
|
|
|
|
iodata.resize(1);
|
|
IOobject(w,grid,iodata,file,offset,format,BINARYIO_READ|BINARYIO_MASTER_APPEND,
|
|
nersc_csum_tmp,scidac_csuma_tmp,scidac_csumb_tmp);
|
|
|
|
{
|
|
std::vector<RngStateType> tmp(RngStateCount);
|
|
std::copy(iodata[0].begin(),iodata[0].end(),tmp.begin());
|
|
serial.SetState(tmp,0);
|
|
}
|
|
|
|
nersc_csum = nersc_csum + nersc_csum_tmp;
|
|
scidac_csuma = scidac_csuma ^ scidac_csuma_tmp;
|
|
scidac_csumb = scidac_csumb ^ scidac_csumb_tmp;
|
|
|
|
std::cout << GridLogMessage << "RNG file nersc_checksum " << std::hex << nersc_csum << std::dec << std::endl;
|
|
std::cout << GridLogMessage << "RNG file scidac_checksuma " << std::hex << scidac_csuma << std::dec << std::endl;
|
|
std::cout << GridLogMessage << "RNG file scidac_checksumb " << std::hex << scidac_csumb << std::dec << std::endl;
|
|
|
|
std::cout << GridLogMessage << "RNG state overhead " << timer.Elapsed() << std::endl;
|
|
}
|
|
/////////////////////////////////////////////////////////////////////////////
|
|
// Write a RNG; lexico map to an array of state and use IOobject
|
|
//////////////////////////////////////////////////////////////////////////////////////
|
|
static inline void writeRNG(GridSerialRNG &serial,
|
|
GridParallelRNG ¶llel,
|
|
std::string file,
|
|
Integer offset,
|
|
uint32_t &nersc_csum,
|
|
uint32_t &scidac_csuma,
|
|
uint32_t &scidac_csumb)
|
|
{
|
|
typedef typename GridSerialRNG::RngStateType RngStateType;
|
|
typedef RngStateType word; word w=0;
|
|
const int RngStateCount = GridSerialRNG::RngStateCount;
|
|
typedef std::array<RngStateType,RngStateCount> RNGstate;
|
|
|
|
GridBase *grid = parallel.Grid();
|
|
int gsites = grid->gSites();
|
|
int lsites = grid->lSites();
|
|
|
|
uint32_t nersc_csum_tmp;
|
|
uint32_t scidac_csuma_tmp;
|
|
uint32_t scidac_csumb_tmp;
|
|
|
|
GridStopWatch timer;
|
|
std::string format = "IEEE32BIG";
|
|
|
|
std::cout << GridLogMessage << "RNG write I/O on file " << file << std::endl;
|
|
|
|
timer.Start();
|
|
std::vector<RNGstate> iodata(lsites);
|
|
thread_loop( (int lidx=0;lidx<lsites;lidx++),{
|
|
std::vector<RngStateType> tmp(RngStateCount);
|
|
parallel.GetState(tmp,lidx);
|
|
std::copy(tmp.begin(),tmp.end(),iodata[lidx].begin());
|
|
});
|
|
timer.Stop();
|
|
|
|
IOobject(w,grid,iodata,file,offset,format,BINARYIO_WRITE|BINARYIO_LEXICOGRAPHIC,
|
|
nersc_csum,scidac_csuma,scidac_csumb);
|
|
|
|
iodata.resize(1);
|
|
{
|
|
std::vector<RngStateType> tmp(RngStateCount);
|
|
serial.GetState(tmp,0);
|
|
std::copy(tmp.begin(),tmp.end(),iodata[0].begin());
|
|
}
|
|
IOobject(w,grid,iodata,file,offset,format,BINARYIO_WRITE|BINARYIO_MASTER_APPEND,
|
|
nersc_csum_tmp,scidac_csuma_tmp,scidac_csumb_tmp);
|
|
|
|
nersc_csum = nersc_csum + nersc_csum_tmp;
|
|
scidac_csuma = scidac_csuma ^ scidac_csuma_tmp;
|
|
scidac_csumb = scidac_csumb ^ scidac_csumb_tmp;
|
|
|
|
std::cout << GridLogMessage << "RNG file checksum " << std::hex << nersc_csum << std::dec << std::endl;
|
|
std::cout << GridLogMessage << "RNG file checksuma " << std::hex << scidac_csuma << std::dec << std::endl;
|
|
std::cout << GridLogMessage << "RNG file checksumb " << std::hex << scidac_csumb << std::dec << std::endl;
|
|
std::cout << GridLogMessage << "RNG state overhead " << timer.Elapsed() << std::endl;
|
|
}
|
|
};
|
|
NAMESPACE_END(Grid);
|
|
#endif
|