예제 #1
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double SimpleRMSD::calc( const std::vector<Vector>& pos, ReferenceValuePack& myder, const bool& squared ) const {
  if( myder.getAtomsDisplacementVector().size()!=pos.size() ) myder.getAtomsDisplacementVector().resize( pos.size() );
  double d=myrmsd.simpleAlignment( getAlign(), getDisplace(), pos, getReferencePositions(), myder.getAtomVector(), myder.getAtomsDisplacementVector(), squared );
  myder.clear(); for(unsigned i=0;i<pos.size();++i) myder.setAtomDerivatives( i, myder.getAtomVector()[i] );
  if( !myder.updateComplete() ) myder.updateDynamicLists();
  return d;
}
예제 #2
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double MultiDomainRMSD::projectAtomicDisplacementOnVector( const bool& normalized, const std::vector<Vector>& vecs, ReferenceValuePack& mypack ) const {
  double totd=0.; std::vector<Vector> tvecs; mypack.clear();
  MultiValue tvals( 1, mypack.getNumberOfDerivatives() ); ReferenceValuePack tder( 0, getNumberOfAtoms(), tvals );
  for(unsigned i=0; i<domains.size(); ++i) {
    // Must extract appropriate positions here
    tvecs.resize( blocks[i+1] - blocks[i] ); domains[i]->setupPCAStorage( tder );
    if( tder.centeredpos.size()>0 ) {
      for(unsigned p=0; p<3; ++p) for(unsigned q=0; q<3; ++q) tder.DRotDPos(p,q).resize( tvecs.size() );
    }
    // Extract information from storage pack and put in local pack
    if( tder.centeredpos.size()>0 ) tder.rot[0]=mypack.rot[i];
    unsigned n=0;
    for(unsigned j=blocks[i]; j<blocks[i+1]; ++j) {
      tder.setAtomIndex(n,j); tvecs[n] = vecs[j]; tder.displacement[n]=mypack.displacement[j] / weights[i];
      if( tder.centeredpos.size()>0 ) {
        tder.centeredpos[n]=mypack.centeredpos[j];
        for(unsigned p=0; p<3; ++p) for(unsigned q=0; q<3; ++q) tder.DRotDPos(p,q)[n]=mypack.DRotDPos(p,q)[j];
      }
      n++;
    }
    for(unsigned k=n; k<getNumberOfAtoms(); ++k) tder.setAtomIndex(k,3*vecs.size()+10);

    // Do the calculations
    totd += weights[i]*domains[i]->projectAtomicDisplacementOnVector( normalized, tvecs, tder );

    // And derivatives
    mypack.copyScaledDerivatives( 0, weights[i], tvals );
  }
  if( !mypack.updateComplete() ) mypack.updateDynamicLists();

  return totd;
}
예제 #3
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double OptimalRMSD::projectAtomicDisplacementOnVector( const bool& normalized, const std::vector<Vector>& vecs, ReferenceValuePack& mypack ) const {
  plumed_dbg_assert( mypack.calcUsingPCAOption() );

  double proj=0.0; mypack.clear();
  for(unsigned i=0; i<vecs.size(); ++i) {
    proj += dotProduct( mypack.getAtomsDisplacementVector()[i], vecs[i] );
  }
  for(unsigned a=0; a<3; a++) {
    for(unsigned b=0; b<3; b++) {
      for(unsigned iat=0; iat<getNumberOfAtoms(); iat++) {
        double tmp1=0.;
        for(unsigned n=0; n<getNumberOfAtoms(); n++) tmp1+=mypack.centeredpos[n][b]*vecs[n][a];
        if( normalized ) mypack.addAtomDerivatives( iat, getDisplace()[iat]*mypack.DRotDPos[a][b][iat]*tmp1 );
        else mypack.addAtomDerivatives( iat, mypack.DRotDPos[a][b][iat]*tmp1 );
      }
    }
  }
  Tensor trot=mypack.rot[0].transpose();
  Vector v1; v1.zero(); double prefactor = 1. / static_cast<double>( getNumberOfAtoms() );
  for(unsigned n=0; n<getNumberOfAtoms(); n++) v1+=prefactor*matmul(trot,vecs[n]);
  if( normalized ) {
    for(unsigned iat=0; iat<getNumberOfAtoms(); iat++) mypack.addAtomDerivatives( iat, getDisplace()[iat]*(matmul(trot,vecs[iat]) - v1) );
  } else {
    for(unsigned iat=0; iat<getNumberOfAtoms(); iat++) mypack.addAtomDerivatives( iat, (matmul(trot,vecs[iat]) - v1) );
  }
  if( !mypack.updateComplete() ) mypack.updateDynamicLists();

  return proj;
}
예제 #4
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double SimpleRMSD::projectAtomicDisplacementOnVector( const std::vector<Vector>& vecs, const std::vector<Vector>& pos, ReferenceValuePack& mypack ) const { 
  plumed_dbg_assert( mypack.calcUsingPCAOption() ); Vector comder; comder.zero();
  for(unsigned j=0;j<pos.size();++j){
      for(unsigned k=0;k<3;++k) comder[k] += getAlign()[j]*vecs[j][k];
  }

  double proj=0; mypack.clear();
  for(unsigned j=0;j<pos.size();++j){
      for(unsigned k=0;k<3;++k){
          proj += vecs[j][k]*mypack.getAtomsDisplacementVector()[j][k];
      }
      mypack.setAtomDerivatives( j, vecs[j] - comder );
  }
  if( !mypack.updateComplete() ) mypack.updateDynamicLists();
  return proj;
}
예제 #5
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double OptimalRMSD::calc( const std::vector<Vector>& pos, ReferenceValuePack& myder, const bool& squared ) const {
  double d;
  if( myder.calcUsingPCAOption() ) {
    std::vector<Vector> centeredreference( getNumberOfAtoms () );
    d=myrmsd.calc_PCAelements(pos,myder.getAtomVector(),myder.rot[0],myder.DRotDPos,myder.getAtomsDisplacementVector(),myder.centeredpos,centeredreference,squared);
    unsigned nat = pos.size();
    for(unsigned i=0; i<nat; ++i) { myder.getAtomsDisplacementVector()[i] -= getReferencePosition(i); myder.getAtomsDisplacementVector()[i] *= getDisplace()[i]; }
  } else if( fast ) {
    if( getAlign()==getDisplace() ) d=myrmsd.optimalAlignment<false,true>(getAlign(),getDisplace(),pos,getReferencePositions(),myder.getAtomVector(),squared);
    else d=myrmsd.optimalAlignment<false,false>(getAlign(),getDisplace(),pos,getReferencePositions(),myder.getAtomVector(),squared);
  } else {
    if( getAlign()==getDisplace() ) d=myrmsd.optimalAlignment<true,true>(getAlign(),getDisplace(),pos,getReferencePositions(),myder.getAtomVector(),squared);
    else d=myrmsd.optimalAlignment<true,false>(getAlign(),getDisplace(),pos,getReferencePositions(),myder.getAtomVector(),squared);
  }
  myder.clear(); for(unsigned i=0; i<pos.size(); ++i) myder.setAtomDerivatives( i, myder.getAtomVector()[i] );
  if( !myder.updateComplete() ) myder.updateDynamicLists();
  return d;
}
예제 #6
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double MultiDomainRMSD::calculate( const std::vector<Vector>& pos, const Pbc& pbc, ReferenceValuePack& myder, const bool& squared ) const {
  double totd=0.; Tensor tvirial; std::vector<Vector> mypos; MultiValue tvals( 1, 3*pos.size()+9 );
  ReferenceValuePack tder( 0, getNumberOfAtoms(), tvals ); myder.clear();

  for(unsigned i=0; i<domains.size(); ++i) {
    // Must extract appropriate positions here
    mypos.resize( blocks[i+1] - blocks[i] );
    if( myder.calcUsingPCAOption() ) domains[i]->setupPCAStorage( tder );
    unsigned n=0; for(unsigned j=blocks[i]; j<blocks[i+1]; ++j) { tder.setAtomIndex(n,j); mypos[n]=pos[j]; n++; }
    for(unsigned k=n; k<getNumberOfAtoms(); ++k) tder.setAtomIndex(k,3*pos.size()+10);
    // This actually does the calculation
    totd += weights[i]*domains[i]->calculate( mypos, pbc, tder, true );
    // Now merge the derivative
    myder.copyScaledDerivatives( 0, weights[i], tvals );
    // If PCA copy PCA stuff
    if( myder.calcUsingPCAOption() ) {
      unsigned n=0;
      if( tder.centeredpos.size()>0 ) myder.rot[i]=tder.rot[0];
      for(unsigned j=blocks[i]; j<blocks[i+1]; ++j) {
        myder.displacement[j]=weights[i]*tder.displacement[n];  // Multiplication by weights here ensures that normalisation is done correctly
        if( tder.centeredpos.size()>0 ) {
          myder.centeredpos[j]=tder.centeredpos[n];
          for(unsigned p=0; p<3; ++p) for(unsigned q=0; q<3; ++q) myder.DRotDPos(p,q)[j]=tder.DRotDPos(p,q)[n];
        }
        n++;
      }
    }
    // Make sure virial status is set correctly in output derivative pack
    // This is only done here so I do this by using class friendship
    if( tder.virialWasSet() ) myder.boxWasSet=true;
  }
  if( !myder.updateComplete() ) myder.updateDynamicLists();

  if( !squared ) {
    totd=sqrt(totd); double xx=0.5/totd;
    myder.scaleAllDerivatives( xx );
  }
  return totd;
}
예제 #7
0
파일: DRMSD.cpp 프로젝트: hockyg/plumed2
double DRMSD::calc( const std::vector<Vector>& pos, const Pbc& pbc, ReferenceValuePack& myder, const bool& squared ) const {
  plumed_dbg_assert(!targets.empty());

  Vector distance; 
  myder.clear(); 
  double drmsd=0.; 
  for(std::map< std::pair <unsigned,unsigned> , double>::const_iterator it=targets.begin();it!=targets.end();++it){
      
      const unsigned i=getAtomIndex( it->first.first );
      const unsigned j=getAtomIndex( it->first.second );

      if(nopbc) distance=delta( pos[i] , pos[j] ); 
      else      distance=pbc.distance( pos[i] , pos[j] );

      const double len = distance.modulo();
      const double diff = len - it->second;
      const double der = diff / len; 

      drmsd += diff * diff;
      myder.addAtomDerivatives( i, -der * distance );
      myder.addAtomDerivatives( j,  der * distance );
      myder.addBoxDerivatives( - der * Tensor(distance,distance) );
  }

  const double inpairs = 1./static_cast<double>(targets.size());
  double idrmsd;

  if(squared){
     drmsd = drmsd * inpairs;
     idrmsd = 2.0 * inpairs;
  } else {
     drmsd = sqrt( drmsd * inpairs );
     idrmsd = inpairs / drmsd ;
  }

  myder.scaleAllDerivatives( idrmsd );

  return drmsd;
}