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ab50145001
Improved Test_gparity
852 lines
29 KiB
C++
852 lines
29 KiB
C++
/*************************************************************************************
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Grid physics library, www.github.com/paboyle/Grid
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Source file: ./lib/qcd/action/fermion/WilsonKernelsHand.cc
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Copyright (C) 2015
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Author: Peter Boyle <paboyle@ph.ed.ac.uk>
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Author: paboyle <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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#include <Grid/qcd/action/fermion/FermionCore.h>
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#define REGISTER
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#define LOAD_CHIMU_BODY(F) \
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Chimu_00=ref(F)(0)(0); \
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Chimu_01=ref(F)(0)(1); \
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Chimu_02=ref(F)(0)(2); \
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Chimu_10=ref(F)(1)(0); \
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Chimu_11=ref(F)(1)(1); \
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Chimu_12=ref(F)(1)(2); \
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Chimu_20=ref(F)(2)(0); \
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Chimu_21=ref(F)(2)(1); \
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Chimu_22=ref(F)(2)(2); \
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Chimu_30=ref(F)(3)(0); \
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Chimu_31=ref(F)(3)(1); \
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Chimu_32=ref(F)(3)(2)
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#define LOAD_CHIMU(DIR,F) \
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{ const SiteSpinor & ref (in._odata[offset]); LOAD_CHIMU_BODY(F); }
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#define LOAD_CHIMU_GPARITY(DIR,F) \
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{ int g; const SiteSpinor & ref = GparityGetChi<SiteSpinor>(g,in._odata.data(),DIR,F,SE,st); LOAD_CHIMU_BODY(g); }
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#define LOAD_CHI_BODY(F) \
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Chi_00 = ref(F)(0)(0);\
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Chi_01 = ref(F)(0)(1);\
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Chi_02 = ref(F)(0)(2);\
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Chi_10 = ref(F)(1)(0);\
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Chi_11 = ref(F)(1)(1);\
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Chi_12 = ref(F)(1)(2)
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#define LOAD_CHI(DIR,F) \
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{const SiteHalfSpinor &ref(buf[offset]); LOAD_CHI_BODY(F); }
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#define LOAD_CHI_GPARITY(DIR,F) \
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{ int g; const SiteHalfSpinor &ref = GparityGetChi<SiteHalfSpinor>(g,buf,DIR,F,SE,st); LOAD_CHI_BODY(g); }
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// To splat or not to splat depends on the implementation
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#define MULT_2SPIN_BODY \
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Impl::loadLinkElement(U_00,ref()(0,0)); \
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Impl::loadLinkElement(U_10,ref()(1,0)); \
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Impl::loadLinkElement(U_20,ref()(2,0)); \
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Impl::loadLinkElement(U_01,ref()(0,1)); \
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Impl::loadLinkElement(U_11,ref()(1,1)); \
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Impl::loadLinkElement(U_21,ref()(2,1)); \
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UChi_00 = U_00*Chi_00; \
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UChi_10 = U_00*Chi_10; \
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UChi_01 = U_10*Chi_00; \
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UChi_11 = U_10*Chi_10; \
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UChi_02 = U_20*Chi_00; \
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UChi_12 = U_20*Chi_10; \
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UChi_00+= U_01*Chi_01; \
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UChi_10+= U_01*Chi_11; \
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UChi_01+= U_11*Chi_01; \
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UChi_11+= U_11*Chi_11; \
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UChi_02+= U_21*Chi_01; \
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UChi_12+= U_21*Chi_11; \
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Impl::loadLinkElement(U_00,ref()(0,2)); \
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Impl::loadLinkElement(U_10,ref()(1,2)); \
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Impl::loadLinkElement(U_20,ref()(2,2)); \
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UChi_00+= U_00*Chi_02; \
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UChi_10+= U_00*Chi_12; \
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UChi_01+= U_10*Chi_02; \
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UChi_11+= U_10*Chi_12; \
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UChi_02+= U_20*Chi_02; \
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UChi_12+= U_20*Chi_12
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#define MULT_2SPIN(A,F) \
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{auto & ref(U._odata[sU](A)); MULT_2SPIN_BODY; }
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#define MULT_2SPIN_GPARITY(A,F) \
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{auto & ref(U._odata[sU](F)(A)); MULT_2SPIN_BODY; }
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#define PERMUTE_DIR(dir) \
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permute##dir(Chi_00,Chi_00);\
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permute##dir(Chi_01,Chi_01);\
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permute##dir(Chi_02,Chi_02);\
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permute##dir(Chi_10,Chi_10);\
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permute##dir(Chi_11,Chi_11);\
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permute##dir(Chi_12,Chi_12);
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// hspin(0)=fspin(0)+timesI(fspin(3));
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// hspin(1)=fspin(1)+timesI(fspin(2));
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#define XP_PROJ \
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Chi_00 = Chimu_00+timesI(Chimu_30);\
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Chi_01 = Chimu_01+timesI(Chimu_31);\
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Chi_02 = Chimu_02+timesI(Chimu_32);\
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Chi_10 = Chimu_10+timesI(Chimu_20);\
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Chi_11 = Chimu_11+timesI(Chimu_21);\
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Chi_12 = Chimu_12+timesI(Chimu_22);
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#define YP_PROJ \
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Chi_00 = Chimu_00-Chimu_30;\
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Chi_01 = Chimu_01-Chimu_31;\
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Chi_02 = Chimu_02-Chimu_32;\
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Chi_10 = Chimu_10+Chimu_20;\
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Chi_11 = Chimu_11+Chimu_21;\
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Chi_12 = Chimu_12+Chimu_22;
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#define ZP_PROJ \
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Chi_00 = Chimu_00+timesI(Chimu_20); \
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Chi_01 = Chimu_01+timesI(Chimu_21); \
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Chi_02 = Chimu_02+timesI(Chimu_22); \
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Chi_10 = Chimu_10-timesI(Chimu_30); \
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Chi_11 = Chimu_11-timesI(Chimu_31); \
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Chi_12 = Chimu_12-timesI(Chimu_32);
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#define TP_PROJ \
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Chi_00 = Chimu_00+Chimu_20; \
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Chi_01 = Chimu_01+Chimu_21; \
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Chi_02 = Chimu_02+Chimu_22; \
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Chi_10 = Chimu_10+Chimu_30; \
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Chi_11 = Chimu_11+Chimu_31; \
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Chi_12 = Chimu_12+Chimu_32;
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// hspin(0)=fspin(0)-timesI(fspin(3));
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// hspin(1)=fspin(1)-timesI(fspin(2));
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#define XM_PROJ \
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Chi_00 = Chimu_00-timesI(Chimu_30);\
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Chi_01 = Chimu_01-timesI(Chimu_31);\
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Chi_02 = Chimu_02-timesI(Chimu_32);\
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Chi_10 = Chimu_10-timesI(Chimu_20);\
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Chi_11 = Chimu_11-timesI(Chimu_21);\
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Chi_12 = Chimu_12-timesI(Chimu_22);
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#define YM_PROJ \
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Chi_00 = Chimu_00+Chimu_30;\
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Chi_01 = Chimu_01+Chimu_31;\
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Chi_02 = Chimu_02+Chimu_32;\
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Chi_10 = Chimu_10-Chimu_20;\
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Chi_11 = Chimu_11-Chimu_21;\
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Chi_12 = Chimu_12-Chimu_22;
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#define ZM_PROJ \
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Chi_00 = Chimu_00-timesI(Chimu_20); \
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Chi_01 = Chimu_01-timesI(Chimu_21); \
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Chi_02 = Chimu_02-timesI(Chimu_22); \
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Chi_10 = Chimu_10+timesI(Chimu_30); \
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Chi_11 = Chimu_11+timesI(Chimu_31); \
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Chi_12 = Chimu_12+timesI(Chimu_32);
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#define TM_PROJ \
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Chi_00 = Chimu_00-Chimu_20; \
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Chi_01 = Chimu_01-Chimu_21; \
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Chi_02 = Chimu_02-Chimu_22; \
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Chi_10 = Chimu_10-Chimu_30; \
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Chi_11 = Chimu_11-Chimu_31; \
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Chi_12 = Chimu_12-Chimu_32;
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// fspin(0)=hspin(0);
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// fspin(1)=hspin(1);
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// fspin(2)=timesMinusI(hspin(1));
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// fspin(3)=timesMinusI(hspin(0));
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#define XP_RECON\
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result_00 = UChi_00;\
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result_01 = UChi_01;\
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result_02 = UChi_02;\
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result_10 = UChi_10;\
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result_11 = UChi_11;\
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result_12 = UChi_12;\
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result_20 = timesMinusI(UChi_10);\
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result_21 = timesMinusI(UChi_11);\
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result_22 = timesMinusI(UChi_12);\
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result_30 = timesMinusI(UChi_00);\
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result_31 = timesMinusI(UChi_01);\
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result_32 = timesMinusI(UChi_02);
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#define XP_RECON_ACCUM\
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result_00+=UChi_00;\
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result_01+=UChi_01;\
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result_02+=UChi_02;\
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result_10+=UChi_10;\
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result_11+=UChi_11;\
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result_12+=UChi_12;\
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result_20-=timesI(UChi_10);\
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result_21-=timesI(UChi_11);\
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result_22-=timesI(UChi_12);\
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result_30-=timesI(UChi_00);\
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result_31-=timesI(UChi_01);\
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result_32-=timesI(UChi_02);
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#define XM_RECON\
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result_00 = UChi_00;\
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result_01 = UChi_01;\
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result_02 = UChi_02;\
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result_10 = UChi_10;\
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result_11 = UChi_11;\
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result_12 = UChi_12;\
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result_20 = timesI(UChi_10);\
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result_21 = timesI(UChi_11);\
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result_22 = timesI(UChi_12);\
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result_30 = timesI(UChi_00);\
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result_31 = timesI(UChi_01);\
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result_32 = timesI(UChi_02);
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#define XM_RECON_ACCUM\
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result_00+= UChi_00;\
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result_01+= UChi_01;\
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result_02+= UChi_02;\
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result_10+= UChi_10;\
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result_11+= UChi_11;\
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result_12+= UChi_12;\
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result_20+= timesI(UChi_10);\
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result_21+= timesI(UChi_11);\
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result_22+= timesI(UChi_12);\
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result_30+= timesI(UChi_00);\
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result_31+= timesI(UChi_01);\
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result_32+= timesI(UChi_02);
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#define YP_RECON_ACCUM\
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result_00+= UChi_00;\
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result_01+= UChi_01;\
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result_02+= UChi_02;\
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result_10+= UChi_10;\
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result_11+= UChi_11;\
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result_12+= UChi_12;\
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result_20+= UChi_10;\
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result_21+= UChi_11;\
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result_22+= UChi_12;\
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result_30-= UChi_00;\
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result_31-= UChi_01;\
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result_32-= UChi_02;
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#define YM_RECON_ACCUM\
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result_00+= UChi_00;\
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result_01+= UChi_01;\
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result_02+= UChi_02;\
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result_10+= UChi_10;\
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result_11+= UChi_11;\
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result_12+= UChi_12;\
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result_20-= UChi_10;\
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result_21-= UChi_11;\
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result_22-= UChi_12;\
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result_30+= UChi_00;\
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result_31+= UChi_01;\
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result_32+= UChi_02;
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#define ZP_RECON_ACCUM\
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result_00+= UChi_00;\
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result_01+= UChi_01;\
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result_02+= UChi_02;\
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result_10+= UChi_10;\
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result_11+= UChi_11;\
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result_12+= UChi_12;\
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result_20-= timesI(UChi_00); \
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result_21-= timesI(UChi_01); \
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result_22-= timesI(UChi_02); \
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result_30+= timesI(UChi_10); \
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result_31+= timesI(UChi_11); \
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result_32+= timesI(UChi_12);
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#define ZM_RECON_ACCUM\
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result_00+= UChi_00;\
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result_01+= UChi_01;\
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result_02+= UChi_02;\
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result_10+= UChi_10;\
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result_11+= UChi_11;\
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result_12+= UChi_12;\
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result_20+= timesI(UChi_00); \
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result_21+= timesI(UChi_01); \
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result_22+= timesI(UChi_02); \
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result_30-= timesI(UChi_10); \
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result_31-= timesI(UChi_11); \
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result_32-= timesI(UChi_12);
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#define TP_RECON_ACCUM\
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result_00+= UChi_00;\
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result_01+= UChi_01;\
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result_02+= UChi_02;\
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result_10+= UChi_10;\
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result_11+= UChi_11;\
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result_12+= UChi_12;\
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result_20+= UChi_00; \
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result_21+= UChi_01; \
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result_22+= UChi_02; \
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result_30+= UChi_10; \
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result_31+= UChi_11; \
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result_32+= UChi_12;
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#define TM_RECON_ACCUM\
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result_00+= UChi_00;\
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result_01+= UChi_01;\
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result_02+= UChi_02;\
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result_10+= UChi_10;\
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result_11+= UChi_11;\
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result_12+= UChi_12;\
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result_20-= UChi_00; \
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result_21-= UChi_01; \
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result_22-= UChi_02; \
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result_30-= UChi_10; \
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result_31-= UChi_11; \
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result_32-= UChi_12;
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#define HAND_STENCIL_LEG(PROJ,PERM,DIR,RECON,F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL) \
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SE=st.GetEntry(ptype,DIR,ss); \
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offset = SE->_offset; \
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local = SE->_is_local; \
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perm = SE->_permute; \
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if ( local ) { \
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LOAD_CHIMU_IMPL(DIR,F); \
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PROJ; \
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if ( perm) { \
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PERMUTE_DIR(PERM); \
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} \
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} else { \
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LOAD_CHI_IMPL(DIR,F); \
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} \
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MULT_2SPIN_IMPL(DIR,F); \
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RECON;
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#define HAND_STENCIL_LEG_INT(PROJ,PERM,DIR,RECON,F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL) \
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SE=st.GetEntry(ptype,DIR,ss); \
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offset = SE->_offset; \
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local = SE->_is_local; \
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perm = SE->_permute; \
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if ( local ) { \
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LOAD_CHIMU_IMPL(DIR,F); \
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PROJ; \
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if ( perm) { \
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PERMUTE_DIR(PERM); \
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} \
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} else if ( st.same_node[DIR] ) { \
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LOAD_CHI_IMPL(DIR,F); \
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} \
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if (local || st.same_node[DIR] ) { \
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MULT_2SPIN_IMPL(DIR,F); \
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RECON; \
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}
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#define HAND_STENCIL_LEG_EXT(PROJ,PERM,DIR,RECON,F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL) \
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SE=st.GetEntry(ptype,DIR,ss); \
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offset = SE->_offset; \
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if((!SE->_is_local)&&(!st.same_node[DIR]) ) { \
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LOAD_CHI_IMPL(DIR,F); \
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MULT_2SPIN_IMPL(DIR,F); \
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RECON; \
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nmu++; \
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}
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#define HAND_RESULT(ss,F) \
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{ \
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SiteSpinor & ref (out._odata[ss]); \
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vstream(ref(F)(0)(0),result_00); \
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vstream(ref(F)(0)(1),result_01); \
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vstream(ref(F)(0)(2),result_02); \
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vstream(ref(F)(1)(0),result_10); \
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vstream(ref(F)(1)(1),result_11); \
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vstream(ref(F)(1)(2),result_12); \
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vstream(ref(F)(2)(0),result_20); \
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vstream(ref(F)(2)(1),result_21); \
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vstream(ref(F)(2)(2),result_22); \
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vstream(ref(F)(3)(0),result_30); \
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vstream(ref(F)(3)(1),result_31); \
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vstream(ref(F)(3)(2),result_32); \
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}
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#define HAND_RESULT_EXT(ss,F) \
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if (nmu){ \
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SiteSpinor & ref (out._odata[ss]); \
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ref(F)(0)(0)+=result_00; \
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ref(F)(0)(1)+=result_01; \
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ref(F)(0)(2)+=result_02; \
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ref(F)(1)(0)+=result_10; \
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ref(F)(1)(1)+=result_11; \
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ref(F)(1)(2)+=result_12; \
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ref(F)(2)(0)+=result_20; \
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ref(F)(2)(1)+=result_21; \
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ref(F)(2)(2)+=result_22; \
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ref(F)(3)(0)+=result_30; \
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ref(F)(3)(1)+=result_31; \
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ref(F)(3)(2)+=result_32; \
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}
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#define HAND_DECLARATIONS(a) \
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Simd result_00; \
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Simd result_01; \
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Simd result_02; \
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Simd result_10; \
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Simd result_11; \
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Simd result_12; \
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Simd result_20; \
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Simd result_21; \
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Simd result_22; \
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Simd result_30; \
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Simd result_31; \
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Simd result_32; \
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Simd Chi_00; \
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Simd Chi_01; \
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Simd Chi_02; \
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Simd Chi_10; \
|
|
Simd Chi_11; \
|
|
Simd Chi_12; \
|
|
Simd UChi_00; \
|
|
Simd UChi_01; \
|
|
Simd UChi_02; \
|
|
Simd UChi_10; \
|
|
Simd UChi_11; \
|
|
Simd UChi_12; \
|
|
Simd U_00; \
|
|
Simd U_10; \
|
|
Simd U_20; \
|
|
Simd U_01; \
|
|
Simd U_11; \
|
|
Simd U_21;
|
|
|
|
#define ZERO_RESULT \
|
|
result_00=zero; \
|
|
result_01=zero; \
|
|
result_02=zero; \
|
|
result_10=zero; \
|
|
result_11=zero; \
|
|
result_12=zero; \
|
|
result_20=zero; \
|
|
result_21=zero; \
|
|
result_22=zero; \
|
|
result_30=zero; \
|
|
result_31=zero; \
|
|
result_32=zero;
|
|
|
|
#define Chimu_00 Chi_00
|
|
#define Chimu_01 Chi_01
|
|
#define Chimu_02 Chi_02
|
|
#define Chimu_10 Chi_10
|
|
#define Chimu_11 Chi_11
|
|
#define Chimu_12 Chi_12
|
|
#define Chimu_20 UChi_00
|
|
#define Chimu_21 UChi_01
|
|
#define Chimu_22 UChi_02
|
|
#define Chimu_30 UChi_10
|
|
#define Chimu_31 UChi_11
|
|
#define Chimu_32 UChi_12
|
|
|
|
namespace Grid {
|
|
namespace QCD {
|
|
|
|
template<class Impl> void
|
|
WilsonKernels<Impl>::HandDhopSite(StencilImpl &st,LebesgueOrder &lo,DoubledGaugeField &U,SiteHalfSpinor *buf,
|
|
int ss,int sU,const FermionField &in, FermionField &out)
|
|
{
|
|
// T==0, Z==1, Y==2, Z==3 expect 1,2,2,2 simd layout etc...
|
|
typedef typename Simd::scalar_type S;
|
|
typedef typename Simd::vector_type V;
|
|
|
|
HAND_DECLARATIONS(ignore);
|
|
|
|
int offset,local,perm, ptype;
|
|
StencilEntry *SE;
|
|
|
|
#define HAND_DOP_SITE(F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL) \
|
|
HAND_STENCIL_LEG(XM_PROJ,3,Xp,XM_RECON,F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL); \
|
|
HAND_STENCIL_LEG(YM_PROJ,2,Yp,YM_RECON_ACCUM,F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL); \
|
|
HAND_STENCIL_LEG(ZM_PROJ,1,Zp,ZM_RECON_ACCUM,F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL); \
|
|
HAND_STENCIL_LEG(TM_PROJ,0,Tp,TM_RECON_ACCUM,F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL); \
|
|
HAND_STENCIL_LEG(XP_PROJ,3,Xm,XP_RECON_ACCUM,F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL); \
|
|
HAND_STENCIL_LEG(YP_PROJ,2,Ym,YP_RECON_ACCUM,F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL); \
|
|
HAND_STENCIL_LEG(ZP_PROJ,1,Zm,ZP_RECON_ACCUM,F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL); \
|
|
HAND_STENCIL_LEG(TP_PROJ,0,Tm,TP_RECON_ACCUM,F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL); \
|
|
HAND_RESULT(ss,F)
|
|
|
|
HAND_DOP_SITE(, LOAD_CHI,LOAD_CHIMU,MULT_2SPIN);
|
|
}
|
|
|
|
template<class Impl>
|
|
void WilsonKernels<Impl>::HandDhopSiteDag(StencilImpl &st,LebesgueOrder &lo,DoubledGaugeField &U,SiteHalfSpinor *buf,
|
|
int ss,int sU,const FermionField &in, FermionField &out)
|
|
{
|
|
typedef typename Simd::scalar_type S;
|
|
typedef typename Simd::vector_type V;
|
|
|
|
HAND_DECLARATIONS(ignore);
|
|
|
|
StencilEntry *SE;
|
|
int offset,local,perm, ptype;
|
|
|
|
#define HAND_DOP_SITE_DAG(F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL) \
|
|
HAND_STENCIL_LEG(XP_PROJ,3,Xp,XP_RECON,F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL); \
|
|
HAND_STENCIL_LEG(YP_PROJ,2,Yp,YP_RECON_ACCUM,F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL); \
|
|
HAND_STENCIL_LEG(ZP_PROJ,1,Zp,ZP_RECON_ACCUM,F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL); \
|
|
HAND_STENCIL_LEG(TP_PROJ,0,Tp,TP_RECON_ACCUM,F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL); \
|
|
HAND_STENCIL_LEG(XM_PROJ,3,Xm,XM_RECON_ACCUM,F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL); \
|
|
HAND_STENCIL_LEG(YM_PROJ,2,Ym,YM_RECON_ACCUM,F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL); \
|
|
HAND_STENCIL_LEG(ZM_PROJ,1,Zm,ZM_RECON_ACCUM,F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL); \
|
|
HAND_STENCIL_LEG(TM_PROJ,0,Tm,TM_RECON_ACCUM,F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL); \
|
|
HAND_RESULT(ss,F)
|
|
|
|
HAND_DOP_SITE_DAG(, LOAD_CHI,LOAD_CHIMU,MULT_2SPIN);
|
|
}
|
|
|
|
template<class Impl> void
|
|
WilsonKernels<Impl>::HandDhopSiteInt(StencilImpl &st,LebesgueOrder &lo,DoubledGaugeField &U,SiteHalfSpinor *buf,
|
|
int ss,int sU,const FermionField &in, FermionField &out)
|
|
{
|
|
// T==0, Z==1, Y==2, Z==3 expect 1,2,2,2 simd layout etc...
|
|
typedef typename Simd::scalar_type S;
|
|
typedef typename Simd::vector_type V;
|
|
|
|
HAND_DECLARATIONS(ignore);
|
|
|
|
int offset,local,perm, ptype;
|
|
StencilEntry *SE;
|
|
|
|
#define HAND_DOP_SITE_INT(F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL) \
|
|
ZERO_RESULT; \
|
|
HAND_STENCIL_LEG_INT(XM_PROJ,3,Xp,XM_RECON_ACCUM,F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL); \
|
|
HAND_STENCIL_LEG_INT(YM_PROJ,2,Yp,YM_RECON_ACCUM,F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL); \
|
|
HAND_STENCIL_LEG_INT(ZM_PROJ,1,Zp,ZM_RECON_ACCUM,F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL); \
|
|
HAND_STENCIL_LEG_INT(TM_PROJ,0,Tp,TM_RECON_ACCUM,F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL); \
|
|
HAND_STENCIL_LEG_INT(XP_PROJ,3,Xm,XP_RECON_ACCUM,F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL); \
|
|
HAND_STENCIL_LEG_INT(YP_PROJ,2,Ym,YP_RECON_ACCUM,F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL); \
|
|
HAND_STENCIL_LEG_INT(ZP_PROJ,1,Zm,ZP_RECON_ACCUM,F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL); \
|
|
HAND_STENCIL_LEG_INT(TP_PROJ,0,Tm,TP_RECON_ACCUM,F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL); \
|
|
HAND_RESULT(ss,F)
|
|
|
|
HAND_DOP_SITE_INT(, LOAD_CHI,LOAD_CHIMU,MULT_2SPIN);
|
|
}
|
|
|
|
template<class Impl>
|
|
void WilsonKernels<Impl>::HandDhopSiteDagInt(StencilImpl &st,LebesgueOrder &lo,DoubledGaugeField &U,SiteHalfSpinor *buf,
|
|
int ss,int sU,const FermionField &in, FermionField &out)
|
|
{
|
|
typedef typename Simd::scalar_type S;
|
|
typedef typename Simd::vector_type V;
|
|
|
|
HAND_DECLARATIONS(ignore);
|
|
|
|
StencilEntry *SE;
|
|
int offset,local,perm, ptype;
|
|
|
|
#define HAND_DOP_SITE_DAG_INT(F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL) \
|
|
ZERO_RESULT; \
|
|
HAND_STENCIL_LEG_INT(XP_PROJ,3,Xp,XP_RECON_ACCUM,F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL); \
|
|
HAND_STENCIL_LEG_INT(YP_PROJ,2,Yp,YP_RECON_ACCUM,F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL); \
|
|
HAND_STENCIL_LEG_INT(ZP_PROJ,1,Zp,ZP_RECON_ACCUM,F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL); \
|
|
HAND_STENCIL_LEG_INT(TP_PROJ,0,Tp,TP_RECON_ACCUM,F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL); \
|
|
HAND_STENCIL_LEG_INT(XM_PROJ,3,Xm,XM_RECON_ACCUM,F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL); \
|
|
HAND_STENCIL_LEG_INT(YM_PROJ,2,Ym,YM_RECON_ACCUM,F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL); \
|
|
HAND_STENCIL_LEG_INT(ZM_PROJ,1,Zm,ZM_RECON_ACCUM,F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL); \
|
|
HAND_STENCIL_LEG_INT(TM_PROJ,0,Tm,TM_RECON_ACCUM,F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL); \
|
|
HAND_RESULT(ss,F)
|
|
|
|
HAND_DOP_SITE_DAG_INT(, LOAD_CHI,LOAD_CHIMU,MULT_2SPIN);
|
|
}
|
|
|
|
template<class Impl> void
|
|
WilsonKernels<Impl>::HandDhopSiteExt(StencilImpl &st,LebesgueOrder &lo,DoubledGaugeField &U,SiteHalfSpinor *buf,
|
|
int ss,int sU,const FermionField &in, FermionField &out)
|
|
{
|
|
// T==0, Z==1, Y==2, Z==3 expect 1,2,2,2 simd layout etc...
|
|
typedef typename Simd::scalar_type S;
|
|
typedef typename Simd::vector_type V;
|
|
|
|
HAND_DECLARATIONS(ignore);
|
|
|
|
int offset,local,perm, ptype;
|
|
StencilEntry *SE;
|
|
int nmu=0;
|
|
|
|
#define HAND_DOP_SITE_EXT(F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL) \
|
|
ZERO_RESULT; \
|
|
HAND_STENCIL_LEG_EXT(XM_PROJ,3,Xp,XM_RECON_ACCUM,F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL); \
|
|
HAND_STENCIL_LEG_EXT(YM_PROJ,2,Yp,YM_RECON_ACCUM,F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL); \
|
|
HAND_STENCIL_LEG_EXT(ZM_PROJ,1,Zp,ZM_RECON_ACCUM,F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL); \
|
|
HAND_STENCIL_LEG_EXT(TM_PROJ,0,Tp,TM_RECON_ACCUM,F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL); \
|
|
HAND_STENCIL_LEG_EXT(XP_PROJ,3,Xm,XP_RECON_ACCUM,F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL); \
|
|
HAND_STENCIL_LEG_EXT(YP_PROJ,2,Ym,YP_RECON_ACCUM,F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL); \
|
|
HAND_STENCIL_LEG_EXT(ZP_PROJ,1,Zm,ZP_RECON_ACCUM,F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL); \
|
|
HAND_STENCIL_LEG_EXT(TP_PROJ,0,Tm,TP_RECON_ACCUM,F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL); \
|
|
HAND_RESULT_EXT(ss,F)
|
|
|
|
HAND_DOP_SITE_EXT(, LOAD_CHI,LOAD_CHIMU,MULT_2SPIN);
|
|
}
|
|
|
|
template<class Impl>
|
|
void WilsonKernels<Impl>::HandDhopSiteDagExt(StencilImpl &st,LebesgueOrder &lo,DoubledGaugeField &U,SiteHalfSpinor *buf,
|
|
int ss,int sU,const FermionField &in, FermionField &out)
|
|
{
|
|
typedef typename Simd::scalar_type S;
|
|
typedef typename Simd::vector_type V;
|
|
|
|
HAND_DECLARATIONS(ignore);
|
|
|
|
StencilEntry *SE;
|
|
int offset,local,perm, ptype;
|
|
int nmu=0;
|
|
|
|
#define HAND_DOP_SITE_DAG_EXT(F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL) \
|
|
ZERO_RESULT; \
|
|
HAND_STENCIL_LEG_EXT(XP_PROJ,3,Xp,XP_RECON_ACCUM,F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL); \
|
|
HAND_STENCIL_LEG_EXT(YP_PROJ,2,Yp,YP_RECON_ACCUM,F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL); \
|
|
HAND_STENCIL_LEG_EXT(ZP_PROJ,1,Zp,ZP_RECON_ACCUM,F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL); \
|
|
HAND_STENCIL_LEG_EXT(TP_PROJ,0,Tp,TP_RECON_ACCUM,F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL); \
|
|
HAND_STENCIL_LEG_EXT(XM_PROJ,3,Xm,XM_RECON_ACCUM,F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL); \
|
|
HAND_STENCIL_LEG_EXT(YM_PROJ,2,Ym,YM_RECON_ACCUM,F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL); \
|
|
HAND_STENCIL_LEG_EXT(ZM_PROJ,1,Zm,ZM_RECON_ACCUM,F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL); \
|
|
HAND_STENCIL_LEG_EXT(TM_PROJ,0,Tm,TM_RECON_ACCUM,F,LOAD_CHI_IMPL,LOAD_CHIMU_IMPL,MULT_2SPIN_IMPL); \
|
|
HAND_RESULT_EXT(ss,F)
|
|
|
|
HAND_DOP_SITE_DAG_EXT(, LOAD_CHI,LOAD_CHIMU,MULT_2SPIN);
|
|
}
|
|
|
|
////////////////////////////////////////////////
|
|
// Specialise Gparity to simple implementation
|
|
////////////////////////////////////////////////
|
|
#define HAND_SPECIALISE_EMPTY(IMPL) \
|
|
template<> void \
|
|
WilsonKernels<IMPL>::HandDhopSite(StencilImpl &st, \
|
|
LebesgueOrder &lo, \
|
|
DoubledGaugeField &U, \
|
|
SiteHalfSpinor *buf, \
|
|
int sF,int sU, \
|
|
const FermionField &in, \
|
|
FermionField &out){ assert(0); } \
|
|
template<> void \
|
|
WilsonKernels<IMPL>::HandDhopSiteDag(StencilImpl &st, \
|
|
LebesgueOrder &lo, \
|
|
DoubledGaugeField &U, \
|
|
SiteHalfSpinor *buf, \
|
|
int sF,int sU, \
|
|
const FermionField &in, \
|
|
FermionField &out){ assert(0); } \
|
|
template<> void \
|
|
WilsonKernels<IMPL>::HandDhopSiteInt(StencilImpl &st, \
|
|
LebesgueOrder &lo, \
|
|
DoubledGaugeField &U, \
|
|
SiteHalfSpinor *buf, \
|
|
int sF,int sU, \
|
|
const FermionField &in, \
|
|
FermionField &out){ assert(0); } \
|
|
template<> void \
|
|
WilsonKernels<IMPL>::HandDhopSiteExt(StencilImpl &st, \
|
|
LebesgueOrder &lo, \
|
|
DoubledGaugeField &U, \
|
|
SiteHalfSpinor *buf, \
|
|
int sF,int sU, \
|
|
const FermionField &in, \
|
|
FermionField &out){ assert(0); } \
|
|
template<> void \
|
|
WilsonKernels<IMPL>::HandDhopSiteDagInt(StencilImpl &st, \
|
|
LebesgueOrder &lo, \
|
|
DoubledGaugeField &U, \
|
|
SiteHalfSpinor *buf, \
|
|
int sF,int sU, \
|
|
const FermionField &in, \
|
|
FermionField &out){ assert(0); } \
|
|
template<> void \
|
|
WilsonKernels<IMPL>::HandDhopSiteDagExt(StencilImpl &st, \
|
|
LebesgueOrder &lo, \
|
|
DoubledGaugeField &U, \
|
|
SiteHalfSpinor *buf, \
|
|
int sF,int sU, \
|
|
const FermionField &in, \
|
|
FermionField &out){ assert(0); } \
|
|
|
|
HAND_SPECIALISE_EMPTY(GparityWilsonImplF);
|
|
//HAND_SPECIALISE_EMPTY(GparityWilsonImplD);
|
|
HAND_SPECIALISE_EMPTY(GparityWilsonImplFH);
|
|
HAND_SPECIALISE_EMPTY(GparityWilsonImplDF);
|
|
|
|
|
|
|
|
|
|
|
|
template<> void
|
|
WilsonKernels<GparityWilsonImplD>::HandDhopSite(StencilImpl &st,LebesgueOrder &lo,DoubledGaugeField &U,SiteHalfSpinor *buf,
|
|
int ss,int sU,const FermionField &in, FermionField &out)
|
|
{
|
|
// T==0, Z==1, Y==2, Z==3 expect 1,2,2,2 simd layout etc...
|
|
typedef GparityWilsonImplD Impl;
|
|
typedef typename Simd::scalar_type S;
|
|
typedef typename Simd::vector_type V;
|
|
|
|
HAND_DECLARATIONS(ignore);
|
|
|
|
int offset,local,perm, ptype;
|
|
StencilEntry *SE;
|
|
HAND_DOP_SITE(0, LOAD_CHI_GPARITY,LOAD_CHIMU_GPARITY,MULT_2SPIN_GPARITY);
|
|
HAND_DOP_SITE(1, LOAD_CHI_GPARITY,LOAD_CHIMU_GPARITY,MULT_2SPIN_GPARITY);
|
|
}
|
|
|
|
template<>
|
|
void WilsonKernels<GparityWilsonImplD>::HandDhopSiteDag(StencilImpl &st,LebesgueOrder &lo,DoubledGaugeField &U,SiteHalfSpinor *buf,
|
|
int ss,int sU,const FermionField &in, FermionField &out)
|
|
{
|
|
typedef GparityWilsonImplD Impl;
|
|
typedef typename Simd::scalar_type S;
|
|
typedef typename Simd::vector_type V;
|
|
|
|
HAND_DECLARATIONS(ignore);
|
|
|
|
StencilEntry *SE;
|
|
int offset,local,perm, ptype;
|
|
HAND_DOP_SITE_DAG(0, LOAD_CHI_GPARITY,LOAD_CHIMU_GPARITY,MULT_2SPIN_GPARITY);
|
|
HAND_DOP_SITE_DAG(1, LOAD_CHI_GPARITY,LOAD_CHIMU_GPARITY,MULT_2SPIN_GPARITY);
|
|
}
|
|
|
|
template<> void
|
|
WilsonKernels<GparityWilsonImplD>::HandDhopSiteInt(StencilImpl &st,LebesgueOrder &lo,DoubledGaugeField &U,SiteHalfSpinor *buf,
|
|
int ss,int sU,const FermionField &in, FermionField &out)
|
|
{
|
|
// T==0, Z==1, Y==2, Z==3 expect 1,2,2,2 simd layout etc...
|
|
typedef GparityWilsonImplD Impl;
|
|
typedef typename Simd::scalar_type S;
|
|
typedef typename Simd::vector_type V;
|
|
|
|
HAND_DECLARATIONS(ignore);
|
|
|
|
int offset,local,perm, ptype;
|
|
StencilEntry *SE;
|
|
HAND_DOP_SITE_INT(0, LOAD_CHI_GPARITY,LOAD_CHIMU_GPARITY,MULT_2SPIN_GPARITY);
|
|
HAND_DOP_SITE_INT(1, LOAD_CHI_GPARITY,LOAD_CHIMU_GPARITY,MULT_2SPIN_GPARITY);
|
|
}
|
|
|
|
template<>
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void WilsonKernels<GparityWilsonImplD>::HandDhopSiteDagInt(StencilImpl &st,LebesgueOrder &lo,DoubledGaugeField &U,SiteHalfSpinor *buf,
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int ss,int sU,const FermionField &in, FermionField &out)
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{
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typedef GparityWilsonImplD Impl;
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typedef typename Simd::scalar_type S;
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typedef typename Simd::vector_type V;
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HAND_DECLARATIONS(ignore);
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StencilEntry *SE;
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int offset,local,perm, ptype;
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HAND_DOP_SITE_DAG_INT(0, LOAD_CHI_GPARITY,LOAD_CHIMU_GPARITY,MULT_2SPIN_GPARITY);
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HAND_DOP_SITE_DAG_INT(1, LOAD_CHI_GPARITY,LOAD_CHIMU_GPARITY,MULT_2SPIN_GPARITY);
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}
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template<> void
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WilsonKernels<GparityWilsonImplD>::HandDhopSiteExt(StencilImpl &st,LebesgueOrder &lo,DoubledGaugeField &U,SiteHalfSpinor *buf,
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int ss,int sU,const FermionField &in, FermionField &out)
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{
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// T==0, Z==1, Y==2, Z==3 expect 1,2,2,2 simd layout etc...
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typedef GparityWilsonImplD Impl;
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typedef typename Simd::scalar_type S;
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typedef typename Simd::vector_type V;
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HAND_DECLARATIONS(ignore);
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int offset,local,perm, ptype;
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StencilEntry *SE;
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int nmu=0;
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HAND_DOP_SITE_EXT(0, LOAD_CHI_GPARITY,LOAD_CHIMU_GPARITY,MULT_2SPIN_GPARITY);
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nmu = 0;
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HAND_DOP_SITE_EXT(1, LOAD_CHI_GPARITY,LOAD_CHIMU_GPARITY,MULT_2SPIN_GPARITY);
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}
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template<>
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void WilsonKernels<GparityWilsonImplD>::HandDhopSiteDagExt(StencilImpl &st,LebesgueOrder &lo,DoubledGaugeField &U,SiteHalfSpinor *buf,
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int ss,int sU,const FermionField &in, FermionField &out)
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{
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typedef GparityWilsonImplD Impl;
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typedef typename Simd::scalar_type S;
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typedef typename Simd::vector_type V;
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HAND_DECLARATIONS(ignore);
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StencilEntry *SE;
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int offset,local,perm, ptype;
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int nmu=0;
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HAND_DOP_SITE_DAG_EXT(0, LOAD_CHI_GPARITY,LOAD_CHIMU_GPARITY,MULT_2SPIN_GPARITY);
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nmu = 0;
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HAND_DOP_SITE_DAG_EXT(1, LOAD_CHI_GPARITY,LOAD_CHIMU_GPARITY,MULT_2SPIN_GPARITY);
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}
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////////////// Wilson ; uses this implementation /////////////////////
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#define INSTANTIATE_THEM(A) \
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template void WilsonKernels<A>::HandDhopSite(StencilImpl &st,LebesgueOrder &lo,DoubledGaugeField &U,SiteHalfSpinor *buf,\
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int ss,int sU,const FermionField &in, FermionField &out); \
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template void WilsonKernels<A>::HandDhopSiteDag(StencilImpl &st,LebesgueOrder &lo,DoubledGaugeField &U,SiteHalfSpinor *buf, \
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int ss,int sU,const FermionField &in, FermionField &out);\
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template void WilsonKernels<A>::HandDhopSiteInt(StencilImpl &st,LebesgueOrder &lo,DoubledGaugeField &U,SiteHalfSpinor *buf,\
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int ss,int sU,const FermionField &in, FermionField &out); \
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template void WilsonKernels<A>::HandDhopSiteDagInt(StencilImpl &st,LebesgueOrder &lo,DoubledGaugeField &U,SiteHalfSpinor *buf, \
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int ss,int sU,const FermionField &in, FermionField &out); \
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template void WilsonKernels<A>::HandDhopSiteExt(StencilImpl &st,LebesgueOrder &lo,DoubledGaugeField &U,SiteHalfSpinor *buf,\
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int ss,int sU,const FermionField &in, FermionField &out); \
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template void WilsonKernels<A>::HandDhopSiteDagExt(StencilImpl &st,LebesgueOrder &lo,DoubledGaugeField &U,SiteHalfSpinor *buf, \
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int ss,int sU,const FermionField &in, FermionField &out);
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INSTANTIATE_THEM(WilsonImplF);
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INSTANTIATE_THEM(WilsonImplD);
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INSTANTIATE_THEM(ZWilsonImplF);
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INSTANTIATE_THEM(ZWilsonImplD);
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INSTANTIATE_THEM(GparityWilsonImplF);
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INSTANTIATE_THEM(GparityWilsonImplD);
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INSTANTIATE_THEM(DomainWallVec5dImplF);
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INSTANTIATE_THEM(DomainWallVec5dImplD);
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INSTANTIATE_THEM(ZDomainWallVec5dImplF);
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INSTANTIATE_THEM(ZDomainWallVec5dImplD);
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INSTANTIATE_THEM(WilsonImplFH);
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INSTANTIATE_THEM(WilsonImplDF);
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INSTANTIATE_THEM(ZWilsonImplFH);
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INSTANTIATE_THEM(ZWilsonImplDF);
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INSTANTIATE_THEM(GparityWilsonImplFH);
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INSTANTIATE_THEM(GparityWilsonImplDF);
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INSTANTIATE_THEM(DomainWallVec5dImplFH);
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INSTANTIATE_THEM(DomainWallVec5dImplDF);
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INSTANTIATE_THEM(ZDomainWallVec5dImplFH);
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INSTANTIATE_THEM(ZDomainWallVec5dImplDF);
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}}
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