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222 lines
6.6 KiB
C++
222 lines
6.6 KiB
C++
#include <Grid/Hadrons/Modules/MScalar/ChargedProp.hpp>
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#include <Grid/Hadrons/Modules/MScalar/Scalar.hpp>
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using namespace Grid;
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using namespace Hadrons;
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using namespace MScalar;
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/******************************************************************************
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* TChargedProp implementation *
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******************************************************************************/
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// constructor /////////////////////////////////////////////////////////////////
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TChargedProp::TChargedProp(const std::string name)
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: Module<ChargedPropPar>(name)
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{}
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// dependencies/products ///////////////////////////////////////////////////////
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std::vector<std::string> TChargedProp::getInput(void)
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{
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std::vector<std::string> in = {par().source, par().emField};
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return in;
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}
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std::vector<std::string> TChargedProp::getOutput(void)
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{
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std::vector<std::string> out = {getName()};
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return out;
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}
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// setup ///////////////////////////////////////////////////////////////////////
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void TChargedProp::setup(void)
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{
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freeMomPropName_ = FREEMOMPROP(par().mass);
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phaseName_.clear();
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for (unsigned int mu = 0; mu < env().getNd(); ++mu)
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{
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phaseName_.push_back("_shiftphase_" + std::to_string(mu));
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}
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GFSrcName_ = getName() + "_DinvSrc";
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fftName_ = getName() + "_fft";
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freeMomPropDone_ = env().hasCreatedObject(freeMomPropName_);
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GFSrcDone_ = env().hasCreatedObject(GFSrcName_);
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phasesDone_ = env().hasCreatedObject(phaseName_[0]);
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envCacheLat(ScalarField, freeMomPropName_);
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for (unsigned int mu = 0; mu < env().getNd(); ++mu)
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{
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envCacheLat(ScalarField, phaseName_[mu]);
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}
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envCacheLat(ScalarField, GFSrcName_);
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envCreateLat(ScalarField, getName());
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envTmpLat(ScalarField, "buf");
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envTmpLat(ScalarField, "result");
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envTmpLat(ScalarField, "Amu");
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envCache(FFT, fftName_, 1, env().getGrid());
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}
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// execution ///////////////////////////////////////////////////////////////////
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void TChargedProp::execute(void)
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{
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// CACHING ANALYTIC EXPRESSIONS
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makeCaches();
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// PROPAGATOR CALCULATION
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LOG(Message) << "Computing charged scalar propagator"
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<< " (mass= " << par().mass
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<< ", charge= " << par().charge << ")..." << std::endl;
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auto &prop = envGet(ScalarField, getName());
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auto &GFSrc = envGet(ScalarField, GFSrcName_);
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auto &G = envGet(ScalarField, freeMomPropName_);
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auto &fft = envGet(FFT, fftName_);
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double q = par().charge;
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envGetTmp(ScalarField, result);
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envGetTmp(ScalarField, buf);
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// G*F*Src
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prop = GFSrc;
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// - q*G*momD1*G*F*Src (momD1 = F*D1*Finv)
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buf = GFSrc;
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momD1(buf, fft);
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buf = G*buf;
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prop = prop - q*buf;
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// + q^2*G*momD1*G*momD1*G*F*Src (here buf = G*momD1*G*F*Src)
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momD1(buf, fft);
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prop = prop + q*q*G*buf;
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// - q^2*G*momD2*G*F*Src (momD2 = F*D2*Finv)
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buf = GFSrc;
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momD2(buf, fft);
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prop = prop - q*q*G*buf;
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// final FT
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fft.FFT_all_dim(prop, prop, FFT::backward);
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// OUTPUT IF NECESSARY
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if (!par().output.empty())
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{
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std::string filename = par().output + "." +
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std::to_string(vm().getTrajectory());
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LOG(Message) << "Saving zero-momentum projection to '"
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<< filename << "'..." << std::endl;
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CorrWriter writer(filename);
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std::vector<TComplex> vecBuf;
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std::vector<Complex> result;
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sliceSum(prop, vecBuf, Tp);
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result.resize(vecBuf.size());
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for (unsigned int t = 0; t < vecBuf.size(); ++t)
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{
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result[t] = TensorRemove(vecBuf[t]);
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}
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write(writer, "charge", q);
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write(writer, "prop", result);
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}
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}
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void TChargedProp::makeCaches(void)
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{
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auto &freeMomProp = envGet(ScalarField, freeMomPropName_);
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auto &GFSrc = envGet(ScalarField, GFSrcName_);
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auto &fft = envGet(FFT, fftName_);
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if (!freeMomPropDone_)
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{
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LOG(Message) << "Caching momentum space free scalar propagator"
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<< " (mass= " << par().mass << ")..." << std::endl;
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SIMPL::MomentumSpacePropagator(freeMomProp, par().mass);
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}
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if (!GFSrcDone_)
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{
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FFT fft(env().getGrid());
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auto &source = envGet(ScalarField, par().source);
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LOG(Message) << "Caching G*F*src..." << std::endl;
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fft.FFT_all_dim(GFSrc, source, FFT::forward);
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GFSrc = freeMomProp*GFSrc;
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}
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if (!phasesDone_)
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{
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std::vector<int> &l = env().getGrid()->_fdimensions;
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Complex ci(0.0,1.0);
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LOG(Message) << "Caching shift phases..." << std::endl;
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for (unsigned int mu = 0; mu < env().getNd(); ++mu)
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{
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Real twoPiL = M_PI*2./l[mu];
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auto &phmu = envGet(ScalarField, phaseName_[mu]);
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LatticeCoordinate(phmu, mu);
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phmu = exp(ci*twoPiL*phmu);
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phase_.push_back(&phmu);
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}
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}
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}
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void TChargedProp::momD1(ScalarField &s, FFT &fft)
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{
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auto &A = envGet(EmField, par().emField);
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Complex ci(0.0,1.0);
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envGetTmp(ScalarField, buf);
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envGetTmp(ScalarField, result);
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envGetTmp(ScalarField, Amu);
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result = zero;
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for (unsigned int mu = 0; mu < env().getNd(); ++mu)
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{
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Amu = peekLorentz(A, mu);
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buf = (*phase_[mu])*s;
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fft.FFT_all_dim(buf, buf, FFT::backward);
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buf = Amu*buf;
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fft.FFT_all_dim(buf, buf, FFT::forward);
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result = result - ci*buf;
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}
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fft.FFT_all_dim(s, s, FFT::backward);
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for (unsigned int mu = 0; mu < env().getNd(); ++mu)
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{
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Amu = peekLorentz(A, mu);
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buf = Amu*s;
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fft.FFT_all_dim(buf, buf, FFT::forward);
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result = result + ci*adj(*phase_[mu])*buf;
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}
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s = result;
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}
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void TChargedProp::momD2(ScalarField &s, FFT &fft)
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{
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auto &A = envGet(EmField, par().emField);
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envGetTmp(ScalarField, buf);
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envGetTmp(ScalarField, result);
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envGetTmp(ScalarField, Amu);
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result = zero;
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for (unsigned int mu = 0; mu < env().getNd(); ++mu)
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{
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Amu = peekLorentz(A, mu);
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buf = (*phase_[mu])*s;
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fft.FFT_all_dim(buf, buf, FFT::backward);
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buf = Amu*Amu*buf;
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fft.FFT_all_dim(buf, buf, FFT::forward);
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result = result + .5*buf;
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}
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fft.FFT_all_dim(s, s, FFT::backward);
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for (unsigned int mu = 0; mu < env().getNd(); ++mu)
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{
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Amu = peekLorentz(A, mu);
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buf = Amu*Amu*s;
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fft.FFT_all_dim(buf, buf, FFT::forward);
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result = result + .5*adj(*phase_[mu])*buf;
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}
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s = result;
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}
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