Esempio n. 1
0
/** \return true if TRR/TRJ file. */
bool Traj_GmxTrX::ID_TrajFormat(CpptrajFile& infile) {
    // File must already be set up for read
    if (infile.OpenFile()) return false;
    bool istrx = IsTRX(infile);
    infile.CloseFile();
    return istrx;
}
Esempio n. 2
0
bool Parm_CharmmPsf::ID_ParmFormat(CpptrajFile& fileIn) {
  // Assumes already set up
  if (fileIn.OpenFile()) return false;
  std::string nextLine = fileIn.GetLine();
  if (nextLine.empty()) return false;
  bool isPSF = ( nextLine.compare(0, 3, "PSF") == 0 );
  fileIn.CloseFile();
  return isPSF;
}
Esempio n. 3
0
bool DataIO_OpenDx::ID_DataFormat( CpptrajFile& infile ) {
  bool isDX = false;
  if (!infile.OpenFile()) {
    std::string firstLine = infile.GetLine();
    if (!firstLine.empty())
      isDX = (firstLine.compare(0, 28, "object 1 class gridpositions") == 0);
    infile.CloseFile();
  }
  return isDX;
}
Esempio n. 4
0
// PDBfile::ID_PDB()
bool PDBfile::ID_PDB(CpptrajFile& fileIn) {
  // NOTE: ASSUME FILE SET UP FOR READ
  if (fileIn.OpenFile()) return false;
  std::string line1 = fileIn.GetLine();
  std::string line2 = fileIn.GetLine();
  fileIn.CloseFile();
  if (!IsPDBkeyword( line1 )) return false;
  if (!IsPDBkeyword( line2 )) return false;
  return true;
}
Esempio n. 5
0
// DataIO_CCP4::ID_DataFormat()
bool DataIO_CCP4::ID_DataFormat( CpptrajFile& infile ) {
    bool isCCP4 = false;
    if (!infile.OpenFile()) {
        unsigned char MAP[4];
        if (infile.Seek(52 * wSize) == 0) {
            infile.Read( MAP, wSize );
            isCCP4 = MapCharsValid( MAP );
        }
        infile.CloseFile();
    }
    return isCCP4;
}
Esempio n. 6
0
/** Determine if fileIn is a CIF file. Look for entries beginning with 
  * an underscore (indicating data block), and a 'loop_' keyword or
  * '_entry.id' block.
  */
bool CIFfile::ID_CIF(CpptrajFile& fileIn) {
  // NOTE: ASSUME FILE SET UP FOR READ
  if (fileIn.OpenFile()) return false;
  int ndata = 0; // Number of '_XXX' entries seen
  bool foundLoop = false;
  bool foundEntryID = false;
  for (int i = 0; i < 10; i++) {
    std::string lineIn = fileIn.GetLine();
    if (lineIn[0] == '_') ndata++;
    if (lineIn.compare(0,5,"loop_")==0) foundLoop = true;
    if (lineIn.compare(0,9,"_entry.id")==0) foundEntryID = true;
  }
  fileIn.CloseFile();
  return ( ndata > 2 && (foundLoop || foundEntryID) );
}
Esempio n. 7
0
// DataIO_Mdout::ID_DataFormat()
bool DataIO_Mdout::ID_DataFormat(CpptrajFile& infile) {
  if (infile.OpenFile()) return false;
  bool isMdout = false;
  std::string line = infile.GetLine();
  if (line[0] == '\n') {
    line = infile.GetLine();
    if (line.compare(0, 15, "          -----") == 0) {
      line = infile.GetLine();
      if (line.compare(0, 15, "          Amber") == 0)
        isMdout = true;
    }
  }
  infile.CloseFile();
  return isMdout;
}
Esempio n. 8
0
bool SDFfile::ID_SDF(CpptrajFile& fileIn) {
  // NOTE: ASSUMES FILE IS ALREADY SETUP!
  if (fileIn.OpenFile()) return false;
  // Search for V2000 somewhere in line 4
  const char* ptr = 0;
  for (int i = 0; i < 4; i++)
    if ( (ptr = fileIn.NextLine()) == 0 ) {
      fileIn.CloseFile();
      return false;
    }
  fileIn.CloseFile();
  std::string line( ptr ); // Line 4, Connection table
  if ( line.find( "V2000" ) != std::string::npos ) return true;
  return false;
}
Esempio n. 9
0
bool Traj_CharmmCor::ID_TrajFormat(CpptrajFile& fileIn) {
  // File must already be set up for read.
  if (fileIn.OpenFile()) return false;
  bool isCor = false;
  const char* ptr = fileIn.NextLine();
  // Must be at least 1 title line denoted with '*'
  if (ptr != 0 && *ptr == '*') {
    // Scan past all title lines
    while (ptr != 0 && *ptr == '*') ptr = fileIn.NextLine();
    if (ptr != 0) {
      // Next line must be # atoms ONLY
      int ibuf[2];
      if (sscanf(ptr, "%i %i", ibuf, ibuf+1) == 1)
        // make sure it was a valid integer
        isCor = (ibuf[0] > 0);
    }
  }
  fileIn.CloseFile();
  return isCor;
}
Esempio n. 10
0
// Traj_AmberCoord::ID_TrajFormat()
bool Traj_AmberCoord::ID_TrajFormat(CpptrajFile& fileIn) {
  // File must already be set up for read
  if (fileIn.OpenFile()) return false;
  if (fileIn.NextLine()==0) return false; // Title
  std::string buffer2 = fileIn.GetLine(); // REMD header/coords
  fileIn.CloseFile();
  // Check if second line contains REMD/HREMD, Amber Traj with REMD header
  if ( IsRemdHeader( buffer2.c_str() ) ) {
    if (debug_>0) mprintf("  AMBER TRAJECTORY with (H)REMD header.\n");
    hasREMD_ = REMD_HEADER_SIZE + (size_t)fileIn.IsDos();
    return true;
  }
  // Check if we can read at least 3 coords of width 8, Amber trajectory
  float TrajCoord[3];
  if ( sscanf(buffer2.c_str(), "%8f%8f%8f", TrajCoord, TrajCoord+1, TrajCoord+2) == 3 )
  {
    if (debug_>0) mprintf("  AMBER TRAJECTORY file\n");
    return true;
  }
  return false;
}
Esempio n. 11
0
bool DataIO_XVG::ID_DataFormat(CpptrajFile& infile) {
  if (infile.OpenFile()) return false;
  const char* ptr = infile.NextLine();
  while (ptr != 0 && ptr[0] == '#') {
    const char* cc = ptr;
    while (*cc != '\0') {
      if (*cc == 'G') {
        if ( cc[2] == 'R' && cc[4]  == 'O' && cc[6]  == 'M' &&
             cc[8] == 'A' && cc[10] == 'A' && cc[12] == 'C' )
        {
          infile.CloseFile();
          mprintf("DEBUG:\tFound G R O M A C\n");
          return true;
        }
      }
      ++cc;
    }
    ptr = infile.NextLine();
  }
  infile.CloseFile();
  return false;
}
Esempio n. 12
0
bool TinkerFile::ID_Tinker(CpptrajFile& fileIn) {
  // NOTE: ASSUME FILE SET UP FOR READ
  if (fileIn.OpenFile()) return false;
  ArgList firstLine( fileIn.NextLine() );
  ArgList secondLine( fileIn.NextLine() );
  ArgList thirdLine( fileIn.NextLine() );
  fileIn.CloseFile();
  // First line should have <natom> <title> only
  int natom = 0;
  std::string title;
  if ( SetNatomAndTitle(firstLine, natom, title) != 0 )
    return false;
  //mprinterr("Past SetNatomAndTitle\n");
  if (secondLine.Nargs() == 6) {
    bool isBoxLine = true;
    for (int i = 0; i < 6; i++) {
      // It is a box line if all 6 tokens are doubles
      try {
        convertToDouble( secondLine.GetStringNext() );
      } 
      catch (std::runtime_error e) {
        if (i != 1) return false;
        // We found a non-double on the second character -- it could be an atom
        // name. Check that the rest of the line matches an atom record
        isBoxLine = false;
        break;
      }
    }
    // If we are here it is not a box line, so make sure 
    if (!isBoxLine) {
      return IsAtomLine(secondLine);
    } else { // our second line WAS a box, now check the 3rd line
      return IsAtomLine(thirdLine);
    }
  }
  // There is no box, check that the second line is an atom line
  return IsAtomLine(secondLine);
}
Esempio n. 13
0
/** Check for an integer (I5) followed by 0-2 scientific floats (E15.7) */
bool Traj_AmberRestart::ID_TrajFormat(CpptrajFile& fileIn) {
  // Assume file set up for read
  if (fileIn.OpenFile()) return false;
  bool isRestart = false;
  if ( fileIn.NextLine() !=0 ) { // Title
    const char* ptr = fileIn.NextLine(); // Natom [time [temp]]
    if (ptr != 0) {
      int i0;
      double D[3];
      int nread = sscanf(ptr, "%5i%15lf%15lf%lf", &i0, D, D+1, D+2);
      if (nread > 0 && nread < 4) {
        // Read at least 3 12.7 coordinates from next line.
        ptr = fileIn.NextLine();
        if (ptr != 0) {
          nread = sscanf(ptr, "%12lf%12lf%12lf", D, D+1, D+2);
          if (nread == 3)
            isRestart = true;
        }
      }
    }
  }
  fileIn.CloseFile();
  return isRestart;
}
Esempio n. 14
0
bool Traj_Gro::ID_TrajFormat(CpptrajFile& infile) {
    // Title line, atoms line, then resnum, resname, atomname, atomnum, X, Y, Z
    if (infile.OpenFile()) return false;
    int nread = 0;
    if (infile.NextLine() != 0) { // Title
        const char* ptr = infile.NextLine(); // Natom
        if (ptr != 0) {
            // Ensure only a single value on # atoms line
            std::string natom_str( ptr );
            RemoveTrailingWhitespace( natom_str );
            if (validInteger(natom_str)) {
                ptr = infile.NextLine(); // First atom
                if (ptr != 0) {
                    char resnum[6], resname[6], atname[6], atnum[6];
                    float XYZ[3];
                    nread = sscanf(ptr, "%5c%5c%5c%5c%f %f %f", resnum, resname,
                                   atname, atnum, XYZ, XYZ+1, XYZ+2);
                }
            }
        }
    }
    infile.CloseFile();
    return (nread == 7);
}
Esempio n. 15
0
// Traj_AmberCoord::ID_TrajFormat()
bool Traj_AmberCoord::ID_TrajFormat(CpptrajFile& fileIn) {
  // File must already be set up for read
  if (fileIn.OpenFile()) return false;
  if (fileIn.NextLine()==0) return false; // Title
  std::string buffer2 = fileIn.GetLine(); // REMD header/coords
  fileIn.CloseFile();
  // Check if second line contains REMD/HREMD, Amber Traj with REMD header
  if ( IsRemdHeader( buffer2.c_str() ) ) {
    if (debug_>0) mprintf("  AMBER TRAJECTORY with (H)REMD header.\n");
    headerSize_ = REMD_HEADER_SIZE + (size_t)fileIn.IsDos();
    tStart_ = 33; // 42 - 8 - 1
    tEnd_   = 41; // 42 - 1
    return true;
  }
  // TODO: Read these in as indices instead of temperatures
  if ( IsRxsgldHeader( buffer2.c_str() ) ) {
    mprintf("  AMBER TRAJECTORY with RXSGLD header.\n");
    headerSize_ = RXSGLD_HEADER_SIZE + (size_t)fileIn.IsDos();
    tStart_ = 35; // 44 - 8 - 1
    tEnd_   = 43; // 44 - 1
    return true;
  }
  // Check if we can read 3, 6, 9, or 10 coords (corresponding to 1, 2, 3 or
  // > 3 atoms) of width 8; Amber trajectory.
  float TrajCoord[10];
  int nscan = sscanf(buffer2.c_str(), "%8f%8f%8f%8f%8f%8f%8f%8f%8f%8f",
                     TrajCoord,   TrajCoord+1, TrajCoord+2, TrajCoord+3,
                     TrajCoord+4, TrajCoord+5, TrajCoord+6, TrajCoord+7,
                     TrajCoord+8, TrajCoord+9);
  if (nscan == 3 || nscan == 6 || nscan == 9 || nscan == 10)
  {
    if (debug_>0) mprintf("  AMBER TRAJECTORY file\n");
    return true;
  }
  return false;
}