Beispiel #1
0
// Action_Esander::Init()
Action::RetType Action_Esander::Init(ArgList& actionArgs, ActionInit& init, int debugIn)
{
# ifdef MPI
  trajComm_ = init.TrajComm();
# endif
  SANDER_.SetDebug( debugIn );
  Init_ = init;
  // Get keywords
  outfile_ = init.DFL().AddDataFile( actionArgs.GetStringKey("out"), actionArgs );
  save_forces_ = actionArgs.hasKey("saveforces");
  ReferenceFrame REF = init.DSL().GetReferenceFrame( actionArgs );
  if (REF.error()) return Action::ERR;
  if (!REF.empty()) {
    refFrame_ = REF.Coord();
    currentParm_ = REF.ParmPtr();
  }
  if (SANDER_.SetInput( actionArgs )) return Action::ERR;
  // DataSet name and array
  setname_ = actionArgs.GetStringNext();
  if (setname_.empty())
    setname_ = init.DSL().GenerateDefaultName("ENE");
  Esets_.clear();
  Esets_.resize( (int)Energy_Sander::N_ENERGYTYPES, 0 );

  mprintf("    ESANDER: Calculating energy using Sander.\n");
  mprintf("\tTemporary topology file name is '%s'\n", SANDER_.TopFilename().full());
  if (save_forces_) mprintf("\tSaving force information to frame.\n");
  mprintf("\tReference for initialization");
  if (!REF.empty())
    mprintf(" is '%s'\n", REF.refName());
  else
    mprintf(" will be first frame.\n");
  return Action::OK;
}
Beispiel #2
0
// Action_Unwrap::Init()
Action::RetType Action_Unwrap::Init(ArgList& actionArgs, ActionInit& init, int debugIn)
{
  // Get Keywords
  center_ = actionArgs.hasKey("center");
  if (actionArgs.hasKey("bymol"))
    imageMode_ = Image::BYMOL;
  else if (actionArgs.hasKey("byres"))
    imageMode_ = Image::BYRES;
  else if (actionArgs.hasKey("byatom")) {
    imageMode_ = Image::BYATOM;
    // Unwrapping to center by atom makes no sense
    if (center_) center_ = false;
  } else
    imageMode_ = Image::BYATOM;
  // Get reference
  ReferenceFrame REF = init.DSL().GetReferenceFrame( actionArgs );
  if (REF.error()) return Action::ERR;
  if (!REF.empty()) {
    RefFrame_ = REF.Coord();
    // Get reference parm for frame
    RefParm_ = REF.ParmPtr();
  }

  // Get mask string
  maskExpression_ = actionArgs.GetMaskNext();

  mprintf("    UNWRAP: By %s", Image::ModeString(imageMode_));
  if (!maskExpression_.empty())
    mprintf(" using mask '%s'", maskExpression_.c_str());
  else
    mprintf(" using all atoms");
  if (imageMode_ != Image::BYATOM) {
    if (center_)
      mprintf(" based on center of mass.");
    else
      mprintf(" based on first atom position.");
  }
  mprintf("\n");
  if ( !REF.empty())
    mprintf("\tReference is %s", REF.refName());
  else
    mprintf("\tReference is first frame.");
  mprintf("\n");

  return Action::OK;
}
Beispiel #3
0
/** Called once before traj processing. Set up reference info. */
Action::RetType Action_Rmsd::Init(ArgList& actionArgs, ActionInit& init, int debugIn)
{
  debug_ = debugIn;
  // Check for keywords
  fit_ = !actionArgs.hasKey("nofit");
  if (fit_)
    rotate_ = !actionArgs.hasKey("norotate");
  useMass_ = actionArgs.hasKey("mass");
  DataFile* outfile = init.DFL().AddDataFile(actionArgs.GetStringKey("out"), actionArgs);
  bool saveMatrices = actionArgs.hasKey("savematrices");
  // Reference keywords
  bool previous = actionArgs.hasKey("previous");
  bool first = actionArgs.hasKey("first");
  ReferenceFrame refFrm = init.DSL().GetReferenceFrame( actionArgs );
  std::string reftrajname = actionArgs.GetStringKey("reftraj");
  if (!reftrajname.empty())
    RefParm_ = init.DSL().GetTopology( actionArgs );
  // Per-res keywords
  perres_ = actionArgs.hasKey("perres");
  if (perres_) {
    perresout_ = init.DFL().AddDataFile( actionArgs.GetStringKey("perresout") );
    perresinvert_ = actionArgs.hasKey("perresinvert");
    TgtRange_.SetRange( actionArgs.GetStringKey("range") );
    RefRange_.SetRange( actionArgs.GetStringKey("refrange") );
    perresmask_ = actionArgs.GetStringKey("perresmask");
    if (perresmask_.empty()) 
      perresmask_.assign("");
    else {
      // If perresmask does not start with ampersand, insert one.
      if (perresmask_[0] != '&')
        perresmask_ = '&' + perresmask_;
    }
    perrescenter_ = actionArgs.hasKey("perrescenter");
    perresavg_ = init.DFL().AddDataFile( actionArgs.GetStringKey("perresavg") );
  }
  // Get the RMS mask string for target
  std::string tMaskExpr = actionArgs.GetMaskNext();
  tgtMask_.SetMaskString(tMaskExpr);
  // Get the RMS mask string for reference
  std::string rMaskExpr = actionArgs.GetMaskNext();
  if (rMaskExpr.empty())
    rMaskExpr = tMaskExpr;
  // Initialize reference
  if (REF_.InitRef(previous, first, useMass_, fit_, reftrajname, refFrm, 
                   RefParm_, rMaskExpr, actionArgs, "rmsd"))
    return Action::ERR;
  // Set RefParm for perres if not empty
  if (perres_ && RefParm_ == 0 && !refFrm.empty())
    RefParm_ = refFrm.ParmPtr();

  // Set up the RMSD data set.
  MetaData md( actionArgs.GetStringNext(), MetaData::M_RMS ); 
  rmsd_ = init.DSL().AddSet(DataSet::DOUBLE, md, "RMSD");
  if (rmsd_==0) return Action::ERR;
  // Add dataset to data file list
  if (outfile != 0) outfile->AddDataSet( rmsd_ );
  // Set up rotation matrix data set if specified
  if (saveMatrices) {
    md.SetAspect("RM");
    if (!fit_) {
      mprinterr("Error: Must be fitting in order to save rotation matrices.\n");
      return Action::ERR;
    }
    rmatrices_ = init.DSL().AddSet(DataSet::MAT3X3, md);
    if (rmatrices_ == 0) return Action::ERR;
  }
  mprintf("    RMSD: (%s), reference is %s", tgtMask_.MaskString(),
          REF_.RefModeString());
  if (!fit_)
    mprintf(", no fitting");
  else {
    mprintf(", with fitting");
    if (!rotate_)
      mprintf(" (no rotation)");
  }
  if (useMass_)
    mprintf(", mass-weighted");
  mprintf(".\n");
  if (rmatrices_ != 0)
    mprintf("\tRotation matrices will be saved to set '%s'\n", rmatrices_->legend());
  // Per-residue RMSD info.
  if (perres_) {
    mprintf("          No-fit RMSD will also be calculated for ");
    if (TgtRange_.Empty()) 
      mprintf("each solute residue");
    else
      mprintf("residues %s",TgtRange_.RangeArg());
    if (!RefRange_.Empty())
      mprintf(" (reference residues %s)",RefRange_.RangeArg());
    mprintf(" using mask [:X%s].\n",perresmask_.c_str());
    if (perresout_ != 0)
      mprintf("          Per-residue output file is %s\n",perresout_->DataFilename().base());
    if (perresavg_ != 0)
      mprintf("          Avg per-residue output file is %s\n",perresavg_->DataFilename().base());
    if (perrescenter_)
      mprintf("          perrescenter: Each residue will be centered prior to RMS calc.\n");
    if (perresinvert_)
      mprintf("          perresinvert: Frames will be written in rows instead of columns.\n");
  }
  if (perres_)
    init.DSL().SetDataSetsPending(true);
  masterDSL_ = init.DslPtr();
  return Action::OK;
}