Beispiel #1
0
Exec::RetType Exec_CrdAction::DoCrdAction(CpptrajState& State, ArgList& actionargs,
                                          DataSet_Coords* CRD, Action* act,
                                          TrajFrameCounter const& frameCount) const
{
  Timer total_time;
  total_time.Start();
# ifdef MPI
  ActionInit state(State.DSL(), State.DFL(), trajComm_);
# else
  ActionInit state(State.DSL(), State.DFL());
# endif
  if ( act->Init( actionargs, state, State.Debug() ) != Action::OK )
    return CpptrajState::ERR;
  actionargs.CheckForMoreArgs();
  // Set up frame and parm for COORDS.
  ActionSetup originalSetup( CRD->TopPtr(), CRD->CoordsInfo(), CRD->Size() );
  Frame originalFrame = CRD->AllocateFrame();
  // Set up for this topology 
  Action::RetType setup_ret = act->Setup( originalSetup );
  if ( setup_ret == Action::ERR || setup_ret == Action::SKIP )
    return CpptrajState::ERR;
  // If the topology was modified, we will need a new COORDS set.
  DataSet_Coords* crdOut = 0;
  if ( setup_ret == Action::MODIFY_TOPOLOGY ) {
    // This will not work for a TRJ set.
    switch ( CRD->Type() ) {
      case DataSet::TRAJ      : mprinterr("Error: Cannot modify TRAJ data sets.\n"); break;
      case DataSet::COORDS    : crdOut = (DataSet_Coords*)new DataSet_Coords_CRD(); break;
      case DataSet::REF_FRAME : crdOut = (DataSet_Coords*)new DataSet_Coords_REF(); break;
      default: crdOut = 0; // SANITY
    }
    if (crdOut == 0) return CpptrajState::ERR;
    mprintf("Info: crdaction: COORDS set '%s' will be modified by action '%s'\n",
            CRD->legend(), actionargs.Command());
    if (frameCount.TotalReadFrames() != (int)CRD->Size())
      mprintf("Info: crdaction: Previous size= %zu, new size is %i\n",
              CRD->Size(), frameCount.TotalReadFrames());
    // Set up set, copy original metadata
    crdOut->SetMeta( CRD->Meta() );
    if (crdOut->CoordsSetup( originalSetup.Top(), originalSetup.CoordInfo() ))
      return CpptrajState::ERR;
    DataSet::SizeArray mfArray(1, frameCount.TotalReadFrames());
    if (crdOut->Allocate( mfArray )) return CpptrajState::ERR;
  }
    
  // Loop over all frames in COORDS.
  ProgressBar* progress = 0;
  if (State.ShowProgress())
    progress = new ProgressBar( frameCount.TotalReadFrames() );
  int set = 0;
  for (int frame = frameCount.Start(); frame < frameCount.Stop();
           frame += frameCount.Offset(), ++set)
  {
    // Since Frame can be modified by actions, save original and use currentFrame
    ActionFrame frm( &originalFrame, set );
    if (progress != 0) progress->Update( set );
    CRD->GetFrame( frame, originalFrame );
    Action::RetType ret = act->DoAction( set, frm );
    if (ret == Action::ERR) {
      mprinterr("Error: crdaction: Frame %i, set %i\n", frame + 1, set + 1);
      break;
    }
    // Check if frame was modified. If so, update COORDS.
    if ( ret == Action::MODIFY_COORDS ) {
      if (crdOut != 0)
        crdOut->AddFrame( frm.Frm() );
      else
        CRD->SetCRD( frame, frm.Frm() );
    }
  } 
  if (progress != 0) delete progress;
# ifdef MPI
  act->SyncAction();
# endif
  // If topology was modified, replace old set with new.
  if ( setup_ret == Action::MODIFY_TOPOLOGY ) {
    mprintf("Info: crdaction: Topology for '%s' was modified by action '%s'\n",
            CRD->legend(), actionargs.Command());
    State.DSL().RemoveSet( CRD );
    State.DSL().AddSet( crdOut );
  } 
  act->Print();
  State.MasterDataFileWrite();
  total_time.Stop();
  mprintf("TIME: Total action execution time: %.4f seconds.\n", total_time.Total());
  return CpptrajState::OK;
}
// Exec_RotateDihedral::Execute()
Exec::RetType Exec_RotateDihedral::Execute(CpptrajState& State, ArgList& argIn) {
  // Get input COORDS set
  std::string setname = argIn.GetStringKey("crdset");
  if (setname.empty()) {
    mprinterr("Error: Specify COORDS dataset name with 'crdset'.\n");
    return CpptrajState::ERR;
  }
  DataSet_Coords* CRD = (DataSet_Coords*)State.DSL().FindCoordsSet( setname );
  if (CRD == 0) {
    mprinterr("Error: Could not find COORDS set '%s'\n", setname.c_str());
    return CpptrajState::ERR;
  }
  if (CRD->Size() < 1) {
    mprinterr("Error: COORDS set is empty.\n");
    return CpptrajState::ERR;
  }
  int frame = argIn.getKeyInt("frame", 0);
  if (frame < 0 || frame >= (int)CRD->Size()) {
    mprinterr("Error: Specified frame %i is out of range.\n", frame+1);
    return CpptrajState::ERR;
  }
  mprintf("    ROTATEDIHEDRAL: Using COORDS '%s', frame %i\n", CRD->legend(), frame+1);
  // Get target frame
  Frame FRM = CRD->AllocateFrame();
  CRD->GetFrame(frame, FRM);
  // Save as reference
  Frame refFrame = FRM;

  // Create output COORDS set if necessary
  DataSet_Coords* OUT = 0;
  int outframe = 0;
  std::string outname = argIn.GetStringKey("name");
  if (outname.empty()) {
    // This will not work for TRAJ data sets
    if (CRD->Type() == DataSet::TRAJ) {
      mprinterr("Error: Using TRAJ as input set requires use of 'name' keyword for output.\n");
      return CpptrajState::ERR;
    }
    OUT = CRD;
    outframe = frame;
  } else {
    // Create new output set with 1 empty frame.
    OUT = (DataSet_Coords*)State.DSL().AddSet( DataSet::COORDS, outname );
    if (OUT == 0) return CpptrajState::ERR;
    OUT->Allocate( DataSet::SizeArray(1, 1) );
    OUT->CoordsSetup( CRD->Top(), CRD->CoordsInfo() );
    OUT->AddFrame( CRD->AllocateFrame() );
    mprintf("\tOutput to set '%s'\n", OUT->legend());
  }

  // Determine whether we are setting or incrementing.
  enum ModeType { SET = 0, INCREMENT };
  ModeType mode = SET;
  if (argIn.Contains("value"))
    mode = SET;
  else if (argIn.Contains("increment"))
    mode = INCREMENT;
  else {
    mprinterr("Error: Specify 'value <value>' or 'increment <increment>'\n");
    return CpptrajState::ERR;
  }
  double value = argIn.getKeyDouble(ModeStr[mode], 0.0);
  switch (mode) {
    case SET: mprintf("\tDihedral will be set to %g degrees.\n", value); break;
    case INCREMENT: mprintf("\tDihedral will be incremented by %g degrees.\n", value); break;
  }
  // Convert to radians
  value *= Constants::DEGRAD;

  // Select dihedral atoms
  int A1, A2, A3, A4;
  if (argIn.Contains("type")) {
    // By type
    ArgList typeArg = argIn.GetStringKey("type");
    if (typeArg.empty()) {
      mprinterr("Error: No dihedral type specified after 'type'\n");
      return CpptrajState::ERR;
    }
    DihedralSearch dihSearch;
    dihSearch.SearchForArgs( typeArg );
    if (dihSearch.NoDihedralTokens()) {
      mprinterr("Error: Specified dihedral type not recognized.\n");
      return CpptrajState::ERR;
    }
    // Get residue
    int res = argIn.getKeyInt("res", -1);
    if (res <= 0) {
      mprinterr("Error: If 'type' specified 'res' must be specified and > 0.\n");
      return CpptrajState::ERR;
    }
    // Search for dihedrals. User residue #s start from 1.
    if (dihSearch.FindDihedrals(CRD->Top(), Range(res-1)))
      return CpptrajState::ERR;
    DihedralSearch::mask_it dih = dihSearch.begin();
    A1 = dih->A0();
    A2 = dih->A1();
    A3 = dih->A2();
    A4 = dih->A3();
  } else {
    // By masks
    AtomMask m1( argIn.GetMaskNext() );
    AtomMask m2( argIn.GetMaskNext() );
    AtomMask m3( argIn.GetMaskNext() );
    AtomMask m4( argIn.GetMaskNext() );
    if (CRD->Top().SetupIntegerMask( m1 )) return CpptrajState::ERR;
    if (CRD->Top().SetupIntegerMask( m2 )) return CpptrajState::ERR;
    if (CRD->Top().SetupIntegerMask( m3 )) return CpptrajState::ERR;
    if (CRD->Top().SetupIntegerMask( m4 )) return CpptrajState::ERR;
    if (m1.Nselected() != 1) return MaskError( m1 );
    if (m2.Nselected() != 1) return MaskError( m2 );
    if (m3.Nselected() != 1) return MaskError( m3 );
    if (m4.Nselected() != 1) return MaskError( m4 );
    A1 = m1[0];
    A2 = m2[0];
    A3 = m3[0];
    A4 = m4[0];
  }
  mprintf("\tRotating dihedral defined by atoms '%s'-'%s'-'%s'-'%s'\n",
          CRD->Top().AtomMaskName(A1).c_str(),
          CRD->Top().AtomMaskName(A2).c_str(),
          CRD->Top().AtomMaskName(A3).c_str(),
          CRD->Top().AtomMaskName(A4).c_str());
  // Set mask of atoms that will move during dihedral rotation
  AtomMask Rmask = DihedralSearch::MovingAtoms(CRD->Top(), A2, A3);
  // Calculate current value of dihedral
  double torsion = Torsion( FRM.XYZ(A1), FRM.XYZ(A2), FRM.XYZ(A3), FRM.XYZ(A4) );
  // Calculate delta needed to get to target value.
  double delta;
  switch (mode) {
    case SET:       delta = value - torsion; break;
    case INCREMENT: delta = value; break;
  }
  mprintf("\tOriginal torsion is %g, rotating by %g degrees.\n",
          torsion*Constants::RADDEG, delta*Constants::RADDEG);
  // Set axis of rotation
  Vec3 axisOfRotation = FRM.SetAxisOfRotation( A2, A3 );
  // Calculate rotation matrix for delta.
  Matrix_3x3 rotationMatrix;
  rotationMatrix.CalcRotationMatrix(axisOfRotation, delta);
  // Rotate around axis
  FRM.Rotate(rotationMatrix, Rmask);
  // RMS-fit the non-moving part of the coords back on original
  AtomMask refMask = Rmask;
  refMask.InvertMask();
  FRM.Align( refFrame, refMask );
  // Update coords
  OUT->SetCRD( outframe, FRM );

  return CpptrajState::OK;
}