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376 lines
11 KiB
C++
376 lines
11 KiB
C++
/*************************************************************************************
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Grid physics library, www.github.com/paboyle/Grid
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Source file: Tests/Hadrons/Test_hadrons_distil.cc
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Copyright (C) 2015-2019
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Author: Felix Erben <ferben@ed.ac.uk>
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Author: Michael Marshall <Michael.Marshall@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 <Hadrons/Application.hpp>
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#include <Hadrons/Modules.hpp>
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using namespace Grid;
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using namespace Hadrons;
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/////////////////////////////////////////////////////////////
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// Test creation of laplacian eigenvectors
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/////////////////////////////////////////////////////////////
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void test_Global(Application &application)
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{
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// global parameters
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Application::GlobalPar globalPar;
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globalPar.trajCounter.start = 1500;
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globalPar.trajCounter.end = 1520;
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globalPar.trajCounter.step = 20;
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globalPar.runId = "test";
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application.setPar(globalPar);
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}
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/////////////////////////////////////////////////////////////
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// Test creation of laplacian eigenvectors
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/////////////////////////////////////////////////////////////
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void test_LapEvec(Application &application)
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{
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const char szGaugeName[] = "gauge";
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// gauge field
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application.createModule<MGauge::Random>(szGaugeName);
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// Now make an instance of the LapEvec object
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MDistil::LapEvecPar p;
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p.gauge = szGaugeName;
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//p.EigenPackName = "ePack";
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//p.Distil.TI = 8;
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//p.Distil.LI = 3;
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//p.Distil.Nnoise = 2;
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//p.Distil.tSrc = 0;
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p.Stout.steps = 3;
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p.Stout.parm = 0.2;
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p.Cheby.PolyOrder = 11;
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p.Cheby.alpha = 0.3;
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p.Cheby.beta = 12.5;
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p.Lanczos.Nvec = 5;
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p.Lanczos.Nk = 6;
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p.Lanczos.Np = 2;
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p.Lanczos.MaxIt = 1000;
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p.Lanczos.resid = 1e-2;
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application.createModule<MDistil::LapEvec>("LapEvec",p);
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}
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/////////////////////////////////////////////////////////////
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// Perambulators
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/////////////////////////////////////////////////////////////
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void test_Perambulators(Application &application)
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{
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// PerambLight parameters
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MDistil::PerambLight::Par PerambPar;
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PerambPar.eigenPack="LapEvec";
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PerambPar.Distil.tsrc = 0;
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PerambPar.Distil.nnoise = 1;
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PerambPar.Distil.LI=5;
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PerambPar.Distil.SI=4;
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PerambPar.Distil.TI=8;
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PerambPar.nvec=5;
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PerambPar.Distil.Ns=4;
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PerambPar.Distil.Nt=8;
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PerambPar.Distil.Nt_inv=1;
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PerambPar.Solver.mass=0.005;
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PerambPar.Solver.M5=1.8;
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PerambPar.Ls=16;
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PerambPar.Solver.CGPrecision=1e-8;
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PerambPar.Solver.MaxIterations=10000;
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application.createModule<MDistil::PerambLight>("Peramb",PerambPar);
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}
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/////////////////////////////////////////////////////////////
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// DistilVectors
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/////////////////////////////////////////////////////////////
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void test_DistilVectors(Application &application)
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{
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// DistilVectors parameters
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MDistil::DistilVectors::Par DistilVecPar;
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DistilVecPar.noise="Peramb_noise";
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DistilVecPar.perambulator="Peramb_perambulator_light";
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DistilVecPar.eigenPack="LapEvec";
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DistilVecPar.tsrc = 0;
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DistilVecPar.nnoise = 1;
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DistilVecPar.LI=5;
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DistilVecPar.SI=4;
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DistilVecPar.TI=8;
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DistilVecPar.nvec=5;
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DistilVecPar.Ns=4;
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DistilVecPar.Nt=8;
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DistilVecPar.Nt_inv=1;
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application.createModule<MDistil::DistilVectors>("DistilVecs",DistilVecPar);
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}
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void test_PerambulatorsS(Application &application)
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{
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// PerambLight parameters
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MDistil::PerambLight::Par PerambPar;
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PerambPar.eigenPack="LapEvec";
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PerambPar.tsrc = 0;
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PerambPar.nnoise = 1;
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PerambPar.LI=3;
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PerambPar.SI=4;
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PerambPar.TI=8;
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PerambPar.nvec=3;
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PerambPar.Ns=4;
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PerambPar.Nt=8;
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PerambPar.Nt_inv=1;
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PerambPar.mass=0.04; //strange mass???
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PerambPar.M5=1.8;
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PerambPar.Ls=16;
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PerambPar.CGPrecision=1e-8;
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PerambPar.MaxIterations=10000;
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application.createModule<MDistil::PerambLight>("PerambS",PerambPar);
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}
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/////////////////////////////////////////////////////////////
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// DistilVectors
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/////////////////////////////////////////////////////////////
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void test_DistilVectorsS(Application &application)
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{
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// DistilVectors parameters
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MDistil::DistilVectors::Par DistilVecPar;
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DistilVecPar.noise="PerambS_noise";
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DistilVecPar.perambulator="PerambS_perambulator_light";
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DistilVecPar.eigenPack="LapEvec";
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DistilVecPar.tsrc = 0;
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DistilVecPar.nnoise = 1;
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DistilVecPar.LI=3;
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DistilVecPar.SI=4;
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DistilVecPar.TI=8;
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DistilVecPar.nvec=3;
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DistilVecPar.Ns=4;
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DistilVecPar.Nt=8;
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DistilVecPar.Nt_inv=1;
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application.createModule<MDistil::DistilVectors>("DistilVecsS",DistilVecPar);
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}
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/////////////////////////////////////////////////////////////
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// MesonFields
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/////////////////////////////////////////////////////////////
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void test_MesonField(Application &application)
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{
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// DistilVectors parameters
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MContraction::A2AMesonField::Par A2AMesonFieldPar;
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A2AMesonFieldPar.left="DistilVecs_phi";
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//A2AMesonFieldPar.right="DistilVecs_rho";
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A2AMesonFieldPar.right="DistilVecs_phi";
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A2AMesonFieldPar.output="DistilFields";
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A2AMesonFieldPar.gammas="all";
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A2AMesonFieldPar.mom={"0 0 0"};
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A2AMesonFieldPar.cacheBlock=2;
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A2AMesonFieldPar.block=4;
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application.createModule<MContraction::A2AMesonField>("DistilMesonField",A2AMesonFieldPar);
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}
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/////////////////////////////////////////////////////////////
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// MesonFields
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/////////////////////////////////////////////////////////////
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void test_MesonFieldSL(Application &application)
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{
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// DistilVectors parameters
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MContraction::A2AMesonField::Par A2AMesonFieldPar;
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A2AMesonFieldPar.left="DistilVecsS_phi";
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//A2AMesonFieldPar.right="DistilVecs_rho";
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A2AMesonFieldPar.right="DistilVecs_phi";
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A2AMesonFieldPar.output="DistilFields";
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A2AMesonFieldPar.gammas="all";
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A2AMesonFieldPar.mom={"0 0 0"};
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A2AMesonFieldPar.cacheBlock=2;
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A2AMesonFieldPar.block=4;
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application.createModule<MContraction::A2AMesonField>("DistilMesonField",A2AMesonFieldPar);
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}
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bool bNumber( int &ri, const char * & pstr, bool bGobbleWhiteSpace = true )
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{
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if( bGobbleWhiteSpace )
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while( std::isspace(static_cast<unsigned char>(*pstr)) )
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pstr++;
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const char * p = pstr;
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bool bMinus = false;
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char c = * p++;
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if( c == '+' )
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c = * p++;
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else if( c == '-' ) {
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bMinus = true;
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c = * p++;
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}
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int n = c - '0';
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if( n < 0 || n > 9 )
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return false;
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while( * p >= '0' && * p <= '9' ) {
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n = n * 10 + ( * p ) - '0';
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p++;
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}
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if( bMinus )
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n *= -1;
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ri = n;
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pstr = p;
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return true;
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}
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#ifdef DEBUG
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typedef Eigen::Tensor<Complex,3,Eigen::RowMajor | Eigen::DontAlign> MyTensor;
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bool DebugEigenTest()
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{
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MyTensor x(2,3,4);
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const MyTensor::Index s{x.size()};
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std::cout << "x.size() = " << s << std::endl;
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std::cout << "x.NumDimensions = " << x.NumDimensions << " (TensorBase)" << std::endl;
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std::cout << "x.NumIndices = " << x.NumIndices << std::endl;
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const MyTensor::Dimensions & d{x.dimensions()};
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std::cout << "d.size() = " << d.size() << std::endl;
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std::cout << "Dimensions are ";
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for(auto i : d ) std::cout << "[" << i << "]";
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std::cout << std::endl;
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MyTensor::Index SizeCalculated{1};
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std::cout << "Dimensions again";
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for(int i=0 ; i < d.size() ; i++ ) {
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std::cout << " : [" << i << "]=" << d[i];
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SizeCalculated *= d[i];
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}
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std::cout << std::endl;
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std::cout << "SizeCalculated = " << SizeCalculated << std::endl;\
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assert( SizeCalculated == s );
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// Initialise
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assert( d.size() == 3 );
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for( int i = 0 ; i < d[0] ; i++ )
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for( int j = 0 ; j < d[1] ; j++ )
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for( int k = 0 ; k < d[2] ; k++ ) {
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x(i,j,k) = std::complex<double>(SizeCalculated, SizeCalculated);
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SizeCalculated--;
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}
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// Show raw data
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std::cout << "Data follow : " << std::endl;
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Complex * p = x.data();
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for( auto i = 0 ; i < s ; i++ ) {
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if( i ) std::cout << ", ";
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std::cout << "x.data()[" << i << "]=" << * p++;
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}
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std::cout << std::endl;
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return true;
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}
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#endif
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int main(int argc, char *argv[])
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{
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#ifdef DEBUG
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// Debug only - test of Eigen::Tensor
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//if( DebugEigenTest() ) return 0;
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#endif
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// Decode command-line parameters. 1st one is which test to run
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int iTestNum = -1;
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for(int i = 1 ; i < argc ; i++ ) {
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std::cout << "argv[" << i << "]=\"" << argv[i] << "\"" << std::endl;
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const char * p = argv[i];
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if( * p == '/' || * p == '-' ) {
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p++;
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char c = * p++;
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switch(toupper(c)) {
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case 'T':
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if( bNumber( iTestNum, p ) ) {
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std::cout << "Test " << iTestNum << " requested";
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if( * p )
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std::cout << " (ignoring trailer \"" << p << "\")";
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std::cout << std::endl;
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}
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else
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std::cout << "Invalid test \"" << &argv[i][2] << "\"" << std::endl;
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break;
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default:
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std::cout << "Ignoring switch \"" << &argv[i][1] << "\"" << std::endl;
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break;
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}
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}
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}
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// initialization //////////////////////////////////////////////////////////
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Grid_init(&argc, &argv);
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HadronsLogError.Active(GridLogError.isActive());
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HadronsLogWarning.Active(GridLogWarning.isActive());
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HadronsLogMessage.Active(GridLogMessage.isActive());
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HadronsLogIterative.Active(GridLogIterative.isActive());
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HadronsLogDebug.Active(GridLogDebug.isActive());
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LOG(Message) << "Grid initialized" << std::endl;
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// run setup ///////////////////////////////////////////////////////////////
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Application application;
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// For now perform free propagator test - replace this with distillation test(s)
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LOG(Message) << "====== Creating xml for test " << iTestNum << " ======" << std::endl;
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//const unsigned int nt = GridDefaultLatt()[Tp];
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switch(iTestNum) {
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case 1:
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test_Global( application );
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test_LapEvec( application );
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break;
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case 2:
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test_Global( application );
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test_LapEvec( application );
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test_Perambulators( application );
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break;
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case 3: // 3
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test_Global( application );
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test_LapEvec( application );
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test_Perambulators( application );
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test_DistilVectors( application );
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break;
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default: // 4
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test_Global( application );
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test_LapEvec( application );
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test_Perambulators( application );
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test_DistilVectors( application );
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test_MesonField( application );
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break;
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case 5: // 3
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test_Global( application );
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test_LapEvec( application );
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test_Perambulators( application );
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test_DistilVectors( application );
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test_PerambulatorsS( application );
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test_DistilVectorsS( application );
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test_MesonFieldSL( application );
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break;
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}
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LOG(Message) << "====== XML creation for test " << iTestNum << " complete ======" << std::endl;
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// execution
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application.saveParameterFile("test_hadrons_distil.xml");
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application.run();
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// epilogue
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LOG(Message) << "Grid is finalizing now" << std::endl;
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Grid_finalize();
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return EXIT_SUCCESS;
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}
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