Exemple #1
0
extern "C" char *
ob_mol_to_canonical_smiles (char *molfile, int omit_iso_and_chiral_markings)
{
  OBMol mol;
  OBConversion conv;
  string tmpStr (molfile);
  string outstring;
  istringstream molstream (tmpStr);
  ostringstream smilesstream;
  char *tmpSmiles;

  conv.SetInAndOutFormats ("MDL", "CAN");
  conv.AddOption ("n", OBConversion::OUTOPTIONS);
  //conv.AddOption ("c", OBConversion::OUTOPTIONS);
  if (omit_iso_and_chiral_markings != 0)
    {
      conv.AddOption ("i", OBConversion::OUTOPTIONS);
    }

  conv.Read (&mol, &molstream);

  if (mol.Empty ())
    return NULL;

  conv.Write (&mol, &smilesstream);

  outstring = smilesstream.str ();

  outstring = outstring.substr (0, outstring.length () - 1);

  tmpSmiles = strdup (outstring.c_str ());

  return (tmpSmiles);
}
Exemple #2
0
extern "C" char *
ob_V3000_to_mol (char *V3000)
{
  OBMol mol;
  OBConversion conv;
  string tmpStr (V3000);
  string outstring;
  istringstream V3000stream (tmpStr);
  ostringstream molstream;
  char *tmpMolfile;

  conv.SetInAndOutFormats ("MDL", "MDL");
  conv.AddOption ("3", OBConversion::INOPTIONS);
  conv.AddOption ("2", OBConversion::OUTOPTIONS);

  conv.Read (&mol, &V3000stream);
  conv.Write (&mol, &molstream);

  outstring = molstream.str ();

  // remove the trailling $$$$\n from the SDFile
  if (outstring.find ("$$$$\n", 0) != string::npos)
    {
      outstring = outstring.substr (0, outstring.length () - 5);
    }
  else if (outstring.find ("$$$$\r\n", 0) != string::npos)
    {
      outstring = outstring.substr (0, outstring.length () - 6);
    }

  tmpMolfile = strdup (outstring.c_str ());

  return (tmpMolfile);
}
Exemple #3
0
void DoOption(const char* p, OBConversion& Conv,
	      OBConversion::Option_type typ, int& arg, int argc, char *argv[])
{
  while(p && *p) //can have multiple single char options
  {
    char ch[2]="?";
    *ch = *p++;
    const char* txt=NULL;
    //Get the option text if needed
    int nParams = Conv.GetOptionParams(ch, typ);
    if(nParams)
    {
      if(*p)
      {
        txt = p; //use text immediately following the option letter
        p=NULL; //no more single char options
      }
      else if(arg<argc-1)
      {
        txt = argv[++arg]; //use text from next arg
        if(*txt=='-')
        {
          //...unless it is another option
          cerr << "Option -" << ch << " takes a parameter" << endl;
          exit(0);
        }
      }
    }
    Conv.AddOption(ch, typ, txt);
  }
}
void testPdbOccupancies()
{
  // See https://github.com/openbabel/openbabel/pull/1558
  OBConversion conv;
  OBMol mol;
  conv.SetInFormat("cif");
  conv.SetOutFormat("pdb");
  conv.ReadFile(&mol, GetFilename("test08.cif"));

  string pdb = conv.WriteString(&mol);
  conv.AddOption("o", OBConversion::OUTOPTIONS);
  pdb = conv.WriteString(&mol);

  OB_ASSERT(pdb.find("HETATM    1 NA   UNL     1       0.325   0.000   4.425  0.36") != string::npos);
  OB_ASSERT(pdb.find("HETATM   17  O   UNL     8       1.954   8.956   3.035  1.00") != string::npos);

  OBMol mol_pdb;
  conv.SetInFormat("pdb");
  conv.ReadFile(&mol_pdb, GetFilename("test09.pdb"));

  pdb = conv.WriteString(&mol_pdb);
  OB_ASSERT(pdb.find("HETATM    1 NA   UNL     1       0.325   0.000   4.425  0.36") != string::npos);
  OB_ASSERT(pdb.find("HETATM    2 NA   UNL     1       0.002   8.956   1.393  0.10") != string::npos);
  OB_ASSERT(pdb.find("HETATM   17  O   UNL     8       1.954   8.956   3.035  1.00") != string::npos);
}
Exemple #5
0
  Molecule * OpenbabelWrapper::openFile(const QString &fileName,
                                        const QString &fileType,
                                        const QString &fileOptions)
  {
    // Check that the file can be read from disk
    if (!canOpen(fileName, QFile::ReadOnly | QFile::Text))
      return 0;

    // Construct the OpenBabel objects, set the file type
    OBConversion conv;
    OBFormat *inFormat;
    if (!fileType.isEmpty() && !conv.SetInFormat(fileType.toAscii().data()))
      // Input format not supported
      return 0;
    else {
      inFormat = conv.FormatFromExt(fileName.toAscii().data());
      if (!conv.SetInFormat(inFormat))
        // Input format not supported
        return 0;
    }

    // set any options
    if (!fileOptions.isEmpty()) {
      foreach(const QString &option,
              fileOptions.split('\n', QString::SkipEmptyParts)) {
        conv.AddOption(option.toAscii().data(), OBConversion::INOPTIONS);
      }
    }
void testPdbRemSpacesHMName()
{
  // See https://github.com/openbabel/openbabel/pull/1558
  OBConversion conv;
  OBMol mol;
  conv.SetInFormat("cif");
  conv.SetOutFormat("pdb");
  conv.ReadFile(&mol, GetFilename("test07.cif"));

  string pdb = conv.WriteString(&mol);
  conv.AddOption("o", OBConversion::OUTOPTIONS);
  pdb = conv.WriteString(&mol);

  OB_ASSERT(pdb.find("I41/amd:2") != string::npos);
}
void testPdbOutHexagonalAlternativeOrigin2()
{
  // See https://github.com/openbabel/openbabel/pull/1558
  OBConversion conv;
  OBMol mol;
  conv.SetInFormat("cif");
  conv.SetOutFormat("pdb");
  conv.ReadFile(&mol, GetFilename("test06.cif"));

  string pdb = conv.WriteString(&mol);
  conv.AddOption("o", OBConversion::OUTOPTIONS);
  pdb = conv.WriteString(&mol);

  OB_ASSERT(pdb.find("H -3 m") != string::npos);
}
void testPdbOutAlternativeOrigin()
{
  // See https://github.com/openbabel/openbabel/pull/1558
  OBConversion conv;
  OBMol mol;
  conv.SetInFormat("cif");
  conv.SetOutFormat("pdb");
  conv.ReadFile(&mol, GetFilename("test04.cif"));

  string pdb = conv.WriteString(&mol);
  // ending space is needed to check that there is no origin set
  OB_ASSERT(pdb.find("P 4/n b m ") != string::npos);

  conv.AddOption("o", OBConversion::OUTOPTIONS);
  pdb = conv.WriteString(&mol);

  OB_ASSERT(pdb.find("P 4/n b m:1") != string::npos);
}
bool OpReadConformers::ProcessVec(std::vector<OBBase*>& vec)
{
  // DeferredFormat collects all the molecules, they are processed here, and Deferred Format outputs them
  OBConversion smconv;
  smconv.AddOption("n");
  if(!smconv.SetOutFormat("smi"))
  {
    obErrorLog.ThrowError(__FUNCTION__, "SmilesFormat is not loaded" , obError, onceOnly);
    return false;
  }

  std::string smiles, stored_smiles;
  OBMol* stored_pmol=NULL;
  std::vector<OBBase*>::iterator iter;
  for(iter= vec.begin();iter!=vec.end();++iter)
  {
    OBMol* pmol = dynamic_cast<OBMol*>(*iter);
    if(!pmol)
      continue;
    smiles = smconv.WriteString(pmol);
    Trim(smiles);

    if(stored_smiles==smiles)
    {
      //add the coordinates of the current mol to the stored one as a conformer, and delete current mol
      double *confCoord = new double [pmol->NumAtoms() * 3];
      memcpy((char*)confCoord,(char*)pmol->GetCoordinates(),sizeof(double)*3*pmol->NumAtoms());
      stored_pmol->AddConformer(confCoord);
      delete pmol;
      *iter = NULL;
    }
    else
    {
      stored_pmol = pmol;
      stored_smiles = smiles;
    }
  }

  //erase the NULLS
  vec.erase(std::remove(vec.begin(),vec.end(), (void*)NULL), vec.end());
  return true;
}
Exemple #10
0
void DoOption(const char* p, OBConversion& Conv,
	      OBConversion::Option_type typ, int& arg, int argc, char *argv[]) 
{
  //Unlike babel, cannot have multiple concatenated single char options
  //accepts: -sCCC -s CCC -s"CCC" -s CCC red -sCCC red
  char ch[2]="?";
  *ch = *p++;
  std::string txt;
  //Get the option text
  if(*p)
    txt = p; //use text immediately following the option letter, and keep looking

  while(arg<argc-1 && *argv[arg+1]!='-')
  {
    //use text from subsequent args
    if(!txt.empty())txt += ' '; //..space separated if more than one
    txt += argv[++arg]; 
  }
  Conv.AddOption(ch, typ, txt.c_str());
}
Exemple #11
0
int main(int argc,char *argv[])
{
  OBConversion Conv(&cin, &cout); //default input and output are console 

  OBFormat* pInFormat = NULL;
  OBFormat* pOutFormat = NULL;
  vector<string> FileList, OutputFileList;
  string OutputFileName;

  // Parse commandline
  bool gotInType = false, gotOutType = false;
  bool SplitOrBatch=false;

  char *oext = NULL;
  char *iext = NULL;

  //Save name of program without its path (and .exe)
  string pn(argv[0]);
  string::size_type pos;
#ifdef _WIN32
  pos = pn.find(".exe");
  if(pos!=string::npos)
    argv[0][pos]='\0';
#endif
  pos = pn.find_last_of("/\\");
  if(pos==string::npos)
    program_name=argv[0];
  else
    program_name=argv[0]+pos+1;

  const char* p;
  int arg;
  for (arg = 1; arg < argc; ++arg)
    {
      if (argv[arg])
        {
          if (argv[arg][0] == '-')
            {
              char opchar[2]="?";
              opchar[0]=argv[arg][1];
              switch (opchar[0])
                {

                case 'V':
                  {
                    cout << "Open Babel " << BABEL_VERSION << " -- " 
                         << __DATE__ << " -- " << __TIME__ << endl;
                    exit(0);
                  }

                case 'i':
                  //Parameter is the input format which overrides any file extensions
                  gotInType = true;
                  iext = argv[arg] + 2;
                  if(!*iext)
                    iext = argv[++arg]; //space left after -i: use next argument

                  if (strncasecmp(iext, "MIME", 4) == 0)
                    {
                      // get the MIME type from the next argument
                      iext = argv[++arg];
                      pInFormat = Conv.FormatFromMIME(iext);
                    }
                  else
                      pInFormat = Conv.FindFormat(iext);
                  if(pInFormat==NULL)
                    {
                      cerr << program_name << ": cannot read input format!" << endl;
                      usage();
                    }
                  break;

                case 'o':
                  //Parameter is the output format which overrides any file extension
                  gotOutType = true;
                  oext = argv[arg] + 2;
                  if(!*oext)
                    oext = argv[++arg]; //space left after -i: use next argument

                  if (strncasecmp(oext, "MIME", 4) == 0)
                    {
                      // get the MIME type from the next argument
                      oext = argv[++arg];
                      pOutFormat = Conv.FormatFromMIME(oext);
                    }
                  else
                    pOutFormat = Conv.FindFormat(oext);

                  if(pOutFormat==NULL)
                    {
                      cerr << program_name << ": cannot write output format!" << endl;
                      usage();
                    }
                  break;

                case 'O':
                  OutputFileName = argv[arg] + 2;
                  if(OutputFileName.size()<3)
                    OutputFileName = argv[++arg]; //space left after -O: use next argument
                  break;

                case 'L': //display a list of plugin type or classes
                  {
                    const char* param=NULL;
                    if(argc>arg+1)
                      param = argv[arg+2];

                    // First assume first arg is a plugin type and
                    // param is a subtype, like babel -L ops gen3D
                    // or first arg is a plugin ID, like babel -L cml
                    OBPlugin* plugin;
                    if(OBPlugin::GetPlugin("plugins", argv[arg+1])
                      && (plugin = OBPlugin::GetPlugin(argv[arg+1], param))
                      || (plugin = OBPlugin::GetPlugin(NULL, argv[arg+1])))
                    {
                      //Output details of subtype
                      string txt;
                      plugin->Display(txt, "verbose", argv[arg+1]);
                      cout << "One of the " << plugin->TypeID() << '\n' << txt << endl;
                      return 0;
                    }
                    //...otherwise assume it is a plugin type, like babel -L forcefields
                    //Output list of subtypes
                    OBPlugin::List(argv[arg+1], param);
                    return 0;
                  }

                case '?':
                case 'H':
                  if(isalnum(argv[arg][2]) || arg==argc-2)
                    {
                      if(strncasecmp(argv[arg]+2,"all",3))
                        {
                          OBFormat* pFormat
                            = (arg==argc-2) ? Conv.FindFormat(argv[arg+1]) : Conv.FindFormat(argv[arg]+2);
                          if(pFormat)
                            {
                              cout << argv[arg]+2 << "  " << pFormat->Description() << endl;
                              if(pFormat->Flags() & NOTWRITABLE)
                                cout << " This format is Read-only" << endl;
                              if(pFormat->Flags() & NOTREADABLE)
                                cout << " This format is Write-only" << endl;

                              if(strlen(pFormat->SpecificationURL()))
                                cout << "Specification at: " << pFormat->SpecificationURL() << endl;
                            }
                          else
                            cout << "Format type: " << argv[arg]+2 << " was not recognized" <<endl;
                        }
                      else
                        {
                          OBPlugin::List("formats","verbose");
                        }
                    }
                  else
                    help();
                  return 0;

                case '-': //long option --name text
                  {
                    //Option's text is in the next and subsequent args, until one starts with -
                    char* nam = argv[arg]+2;
                    if(!strcasecmp(nam, "help")) //special case handled here
                    {
                      help();
                      return 0;
                    }
                    if(*nam != '\0') //Do nothing if name is empty
                      {
                        string txt;
                        while(arg<argc-1 && *argv[arg+1]!='-')
                          {
                            //use text from subsequent args
                            if(!txt.empty())txt += ' '; //..space separated if more than one
                            txt += argv[++arg]; 
                          }

                        // If a API directive, e.g.---errorlevel
                        // send to the pseudoformat "obapi" (without any leading -)
                        if(*nam=='-')
                          {
                            OBConversion apiConv;
                            OBFormat* pAPI= OBConversion::FindFormat("obapi");
                            if(pAPI)
                              {
                                apiConv.SetOutFormat(pAPI);
                                apiConv.AddOption(nam+1, OBConversion::GENOPTIONS, txt.c_str());
                                apiConv.Write(NULL, &std::cout);
                              }
                          }
                        else
                          // Is a normal long option name, e.g --addtotitle
                          Conv.AddOption(nam,OBConversion::GENOPTIONS,txt.c_str());
                      }
                  }
                  break;
					
                case 'm': //multiple output files
                  SplitOrBatch=true;
                  break;
					
                case 'a': //single character input option
                  p = argv[arg]+2;
                  DoOption(p,Conv,OBConversion::INOPTIONS,arg,argc,argv);
                  break;

                case 'x': //single character output option
                  p = argv[arg]+2;
                  DoOption(p,Conv,OBConversion::OUTOPTIONS,arg,argc,argv);
                  break;

                //Not essential, but allows these options to be before input filenames
                //since we know they take one parameter, and are the most likely options to be misplaced
                case 'f':
                case 'l':
                  p = argv[arg] + 2;
                  if(!*p)
                    p = argv[++arg]; //space left after -f: use next argument
                  Conv.AddOption(opchar, OBConversion::GENOPTIONS, p);
                  break;
                
                case ':':
                  //e.g. -:c1ccccc1. SMILES passed as a file name and handled in OBConversion
                  FileList.push_back(argv[arg]);
                  break;

                default: //single character general option
                  p = argv[arg]+1;
                  DoOption(p,Conv,OBConversion::GENOPTIONS,arg,argc,argv);
                  break;
                }
            }
          else //filenames
              FileList.push_back(argv[arg]);
        }
    }

#ifdef _WIN32
  //Expand wildcards in input filenames and add to FileList
  vector<string> tempFileList(FileList);
  FileList.clear();
  vector<string>::iterator itr;
  for(itr=tempFileList.begin();itr!=tempFileList.end();++itr)
  {
    if((*itr)[0]=='-')
      FileList.push_back(*itr);
    else
      DLHandler::findFiles (FileList, *itr);
  }
#endif
  
  if (!gotInType)
    {
      if(FileList.empty())
        {
          cerr << "No input file or format spec or possibly a misplaced option.\n"
            "Options, other than -i -o -O -m, must come after the input files.\n" <<endl;
          usage();
        }
    }

  if (!gotOutType)
    {
      //check there is a valid output format, but the extension will be re-interpreted in OBConversion
      pOutFormat = Conv.FormatFromExt(OutputFileName.c_str());
      if(OutputFileName.empty() || pOutFormat==NULL)
        {
          cerr << "Missing or unknown output file or format spec or possibly a misplaced option.\n"
            "Options, other than -i -o -O -m, must come after the input files.\n" <<endl;
          usage();
        }
    }
  
    if(!Conv.SetInFormat(pInFormat))
    {
      cerr << "Invalid input format" << endl;
      usage();
    }
    if(!Conv.SetOutFormat(pOutFormat))
    {
      cerr << "Invalid output format" << endl;
      usage();
    }

  if(SplitOrBatch)
    {
      //Put * into output file name before extension (or ext.gz)
      if(OutputFileName.empty())
        {
          OutputFileName = "*.";
          OutputFileName += oext;
        }
      else
        {
          string::size_type pos = OutputFileName.rfind(".gz");
          if(pos==string::npos)
            pos = OutputFileName.rfind('.');
          else
            pos = OutputFileName.rfind('.',pos-1);
          if(pos==string::npos)
            OutputFileName += '*';
          else
            OutputFileName.insert(pos,"*");
        }
    }

  int count = Conv.FullConvert(FileList, OutputFileName, OutputFileList);
 
  Conv.ReportNumberConverted(count);

  if(OutputFileList.size()>1)
    {
      clog << OutputFileList.size() << " files output. The first is " << OutputFileList[0] <<endl;
    }

  //std::string messageSummary = obErrorLog.GetMessageSummary();
  //if (messageSummary.size())
  //  {
  //    clog << messageSummary << endl;
  //  }

#ifdef _DEBUG
  //CM keep window open
  cout << "Press any key to finish" <<endl;
  getch();
#endif
  
  return 0;
}
Exemple #12
0
bool OpNewS::Do(OBBase* pOb, const char* OptionText, OpMap* pmap, OBConversion* pConv)
{
  OBMol* pmol = dynamic_cast<OBMol*>(pOb);
  if(!pmol)
    return false;

  // The SMARTS and any other parameters are extracted on the first molecule
  // and stored in the member variables. The parameter is cleared so that
  // the original -s option in transform.cpp is inactive

  //string txt(pmap->find(GetID())->second); // ID can be "s" or "v"

  vector<OBQuery*>::iterator qiter;
  if(OptionText && *OptionText)//(!pConv || pConv->IsFirstInput())
  {
    //Set up on first call
    queries.clear();
    query=NULL;
    nPatternAtoms=0;
    inv=false;

    tokenize(vec, OptionText);
    inv = GetID()[0]=='v';
    if(vec[0][0]=='~')
    {
      inv = true;
      vec[0].erase(0,1);
    }

    //Do not filter out any molecules if there is a parameter "showall";
    //allows -s option to be used for highlighting substructures (--highlight also does this)
    vector<string>::iterator it = std::remove(vec.begin(), vec.end(),"showall");
    showAll = it != vec.end();
    if(showAll)
      vec.erase(it);

    //Store the number of matches required, if as a number in the second parameter, else 0.
    nmatches = 0;
    comparechar = '\0';
    if(vec.size()>1)
    {
      comparechar = vec[1][0];
      if(comparechar=='>' || comparechar=='<')
        vec[1].erase(0,1);
      else
        comparechar = '\0';
      nmatches = atoi(vec[1].c_str());
      if(nmatches) //remove this parameter to still allow coloring
        vec.erase(vec.begin()+1);
    }

    //Interpret as a filename if possible
    MakeQueriesFromMolInFile(queries, vec[0], &nPatternAtoms, strstr(OptionText,"noH"));
    vec.erase(remove(vec.begin(),vec.end(),"noH"),vec.end());//to prevent "noH2" being seen as a color
    
     
    if(queries.empty())
    {
      //SMARTS supplied
    
      // Explicit H in SMARTS requires explicit H in the molecule.
      // Calling AddHydrogens() on a copy of the molecule  is done in parsmart.cpp
      // only when SMARTS contains [H]. Doing more has complications with atom typing,
      // so AddHydrogens here on the molecule (not a copy) when #1 detected.
      addHydrogens = (vec[0].find("#1]")!=string::npos);

      // If extra target mols have been supplied, make a composite SMARTS
      // to test for any of the targets.
      if(ExtraMols.size()>0)
      {
        for(unsigned i=0;i<ExtraMols.size();++i)
        {
          OBConversion extraConv;
          extraConv.AddOption("h");
          if(!extraConv.SetOutFormat("smi"))
            return false;
          // Add option which avoids implicit H being added to the SMARTS.
          // The parameter must be present but can be anything.
          extraConv.AddOption("h",OBConversion::OUTOPTIONS, "X");
          xsmarts += ",$(" + extraConv.WriteString(ExtraMols[i], true) + ")";
        }
      }

      string ysmarts = xsmarts.empty() ? vec[0] : "[$(" + vec[0] + ")" + xsmarts +"]";
      xsmarts.clear();
      if(!sp.Init(ysmarts))
      {
        string msg = ysmarts + " cannot be interpreted as either valid SMARTS "
          "or the name of a file with an extension known to OpenBabel "
          "that contains one or more pattern molecules.";
        obErrorLog.ThrowError(__FUNCTION__, msg, obError, onceOnly);
        delete pmol;
        pmol = NULL;
        pConv->SetOneObjectOnly(); //stop conversion
        return false;
      }
    }
    else
    {
      // Target is in a file. Add extra targets if any supplied
      for(unsigned i=0;i<ExtraMols.size();++i)
        queries.push_back(CompileMoleculeQuery(static_cast<OBMol*>(ExtraMols[i])));
      ExtraMols.clear();
    }

    if(vec.size()>1 && vec[1]=="exact")
    {
      if(queries.empty())
      {
        //Convert SMARTS to SMILES to count number of atoms
        OBConversion conv;
        OBMol patmol;
        if(!conv.SetInFormat("smi") || !conv.ReadString(&patmol, vec[0]))
        {
          obErrorLog.ThrowError(__FUNCTION__, "Cannot read the parameter of -s option, "
          "which has to be valid SMILES when the exact option is used.", obError, onceOnly);
          delete pmol;
          if(pConv)
            pConv->SetOneObjectOnly(); //stop conversion
          return false;
        }
        nPatternAtoms = patmol.NumHvyAtoms();
      }
    }
    else
      nPatternAtoms = 0;

    //disable old versions
    if(pConv)
      pConv->AddOption(GetID(), OBConversion::GENOPTIONS, "");
  }

  bool match = false;
  //These are a vector of each mapping, each containing atom indxs.
  vector<vector<int> > vecatomvec;
  vector<vector<int> >* pMappedAtoms = NULL;

  if(nPatternAtoms)
    if(pmol->NumHvyAtoms() != nPatternAtoms)
      return false;

  unsigned int imol=0; //index of mol in pattern file
  if(!queries.empty()) //filename supplied
  {
    //match is set true if any of the structures match - OR behaviour
    for(qiter=queries.begin();qiter!=queries.end();++qiter, ++imol)
    {
      OBIsomorphismMapper* mapper = OBIsomorphismMapper::GetInstance(*qiter);
      OBIsomorphismMapper::Mappings mappings;
      mapper->MapUnique(pmol, mappings);
      if( (match = !mappings.empty()) ) // extra parens to indicate truth value
      {
        OBIsomorphismMapper::Mappings::iterator ita;
        OBIsomorphismMapper::Mapping::iterator itb;
        for(ita=mappings.begin(); ita!=mappings.end();++ita)//each mapping
        {
          vector<int> atomvec;
          for(itb=ita->begin(); itb!=ita->end();++itb)//each atom index
            atomvec.push_back(itb->second+1);
          vecatomvec.push_back(atomvec);
          atomvec.clear();
        }
        pMappedAtoms = &vecatomvec;
        break;
      }
    }
  }
  else //SMARTS supplied
  {

    if(addHydrogens)
      pmol->AddHydrogens(false,false);

    if( (match = sp.Match(*pmol)) ) // extra parens to indicate truth value
    {
      pMappedAtoms = &sp.GetMapList();
      if(nmatches!=0)
      {
        int n = sp.GetUMapList().size();
        if(comparechar=='>')      match = (n > nmatches);
        else if(comparechar=='<') match = (n < nmatches);
        else                      match = (n == nmatches);
      }
    }
  }

  if((!showAll && (!match && !inv)) || (match && inv))
  {
    //delete a non-matching mol
    delete pmol;
    pmol = NULL;
    return false;
  }

  if(match)
    //Copy the idxes of the first match to a member variable so that it can be retrieved from outside
    firstmatch.assign(pMappedAtoms->begin()->begin(), pMappedAtoms->begin()->end());
  else
    firstmatch.clear();

  if(match && !inv && vec.size()>=2 && !vec[1].empty() && !nPatternAtoms)
  {
    vector<vector<int> >::iterator iter;

    if (vec[1]=="extract" || (vec.size()>3 && vec[2]=="extract"))
    {
      //Delete all unmatched atoms. Use only the first match
      ExtractSubstruct(pmol, *pMappedAtoms->begin());
      return true;
    }

    // color the substructure if there is a second parameter which is not "exact" or "extract" or "noH"
    // with multiple color parameters use the one corresponding to the query molecule, or the last
    if(imol>vec.size()-2)
      imol = vec.size()-2;
    for(iter=pMappedAtoms->begin();iter!=pMappedAtoms->end();++iter)//each match
       AddDataToSubstruct(pmol, *iter, "color", vec[imol+1]);
    return true;
  }

  if(pConv && pConv->IsLast())
  {
    for(qiter=queries.begin();qiter!=queries.end();++qiter)
      delete *qiter;
    queries.clear();
  }
  return true;
}
Exemple #13
0
// This function will call the Babel library to add 
// hydrogens to the residues
void PDB::addHydrogensToPair(AminoAcid& a, AminoAcid& b, int cd1, int cd2)
{
  OBMol mol;
  string addedH;
  istringstream tempss;
  bool ligand;
  if(b.atom[0]->line.find("HETATM") != string::npos)
    {
      ligand = true;
    }
  else
    {
      ligand = false;
    }

  // This section is just to suppress all of the 
  // warning message that aren't important to us
  {
    OBConversion apiConv;
    OBFormat* pAPI = OBConversion::FindFormat("obapi");
    if(pAPI)
      {
        apiConv.SetOutFormat(pAPI);
        apiConv.AddOption("errorlevel", OBConversion::GENOPTIONS, "0");
        apiConv.Write(NULL, &std::cout);
      }
  }

  // Now, let's pack up the information into a string
  string packedFile="";
  for(unsigned int i=0; i < a.altlocs[cd1].size(); i++)
    {
      if( !a.altlocs[cd1][i]->skip )
        {
          packedFile += a.altlocs[cd1][i]->line + "\n";
        }
    }
  
  int cd2_al = cd2;
  if(b.residue == "ASP" || b.residue == "GLU")
    {
      cd2_al = cd2%(b.altlocs.size());
    }

  for(unsigned int i=0; i < b.altlocs[cd2_al].size(); i++)
    {
      if( !b.altlocs[cd2_al][i]->skip )
        {
            packedFile += b.altlocs[cd2_al][i]->line + "\n";
        }
    }
  packedFile += a.makeConect(cd1);
  packedFile += b.makeConect(cd2_al);


  // Now, let's set up some Babel information
  // First, we get the PDB format to tell
  // Babel how to read the information and 
  // how to output it
  OBFormat* pdbformat = this->conv.FindFormat("pdb");
  this->conv.SetInFormat(pdbformat);
  this->conv.SetOutFormat(pdbformat);

  // Here is where Babel reads everything
  // and adds hydrogens to the pair
  // TO ADD: option to set pH
  this->conv.ReadString(&mol,packedFile);
  mol.AddHydrogens(false,true,PH_LEVEL);

  // Let's write the newly written hydrogens to 
  // a string and parse it
  addedH = this->conv.WriteString(&mol);
  tempss.str(addedH);

  // This ensures that the ligand hydrogens are labeled as
  // HETATM instead of ATOM just for the sake of STAAR. 
  // This may be wrong, but it should be fine since we are
  // stripping out that information later when we write 
  // the GAMESS inp files
  if( ligand )
    {
      string line;
      string f = "";
      while( getline(tempss,line) )
        {
          if( line.find(b.residue) != string::npos )
            {
              line.replace(0,6,"HETATM");
            }
          f += line + "\n";
        }
      tempss.seekg(ios_base::beg);
      tempss.clear();
      tempss.str(f);
    }

  this->failure = false;
  this->parsePDB(tempss,99999.99);

  // This is just to ensure that all of the atoms
  // are grouped together because Babel just 
  // appends the H to the end of the file
  if( !ligand )
      this->sortAtoms();

  // Split the atoms up into amino acids and chains
  this->populateChains(true);
}
Exemple #14
0
int main(int argc,char *argv[])
{
  OBConversion Conv(&cin, &cout); //default input and output are console

  OBFormat* pInFormat = NULL;
  OBFormat* pOutFormat = NULL;
  bool inGzip = false;
  bool outGzip = false;
  vector<string> FileList, OutputFileList;
  string OutputFileName;

  // Parse commandline
  bool gotInType = false, gotOutType = false;
  bool SplitOrBatch=false;

  char *oext = NULL;
  char *iext = NULL;

  //load plugs to fully initialize option parameters
  OBPlugin::LoadAllPlugins();

  //Save name of program without its path (and .exe)
  string pn(argv[0]);
  string::size_type pos;
#ifdef _WIN32
  pos = pn.find(".exe");
  if(pos!=string::npos)
    argv[0][pos]='\0';
#endif
  pos = pn.find_last_of("/\\");
  if(pos==string::npos)
    program_name=argv[0];
  else
    program_name=argv[0]+pos+1;

  const char* p;
  int arg;
  for (arg = 1; arg < argc; ++arg)
    {
      if (argv[arg])
        {
          if (argv[arg][0] == '-')
            {
              switch (argv[arg][1])
                {

                case 'V':
                  {
                    cout << "Open Babel " << BABEL_VERSION << " -- "
                         << __DATE__ << " -- " << __TIME__ << endl;
                    exit(0);
                  }

                case 'i':
                  gotInType = true;
                  iext = argv[arg] + 2;
                  if(!*iext)
                    iext = argv[++arg]; //space left after -i: use next argument

                  if (strncasecmp(iext, "MIME", 4) == 0)
                    {
                      // get the MIME type from the next argument
                      iext = argv[++arg];
                      pInFormat = Conv.FormatFromMIME(iext);
                    }
                  else
                    {
                      //The ID provided by the OBFormat class is used as the identifying file extension
                      pInFormat = Conv.FindFormat(iext);
                    }
                  if(pInFormat==NULL)
                    {
                      cerr << program_name << ": cannot read input format!" << endl;
                      usage();
                    }
                  break;

                case 'o':
                  gotOutType = true;
                  oext = argv[arg] + 2;
                  if(!*oext)
                    oext = argv[++arg]; //space left after -i: use next argument

                  if (arg >= argc)
                    usage(); // error in parsing command-line

                  if (strncasecmp(oext, "MIME", 4) == 0)
                    {
                      // get the MIME type from the next argument
                      oext = argv[++arg];
                      pOutFormat = Conv.FormatFromMIME(oext);
                    }
                  else
                    pOutFormat = Conv.FindFormat(oext);

                  if(pOutFormat==NULL)
                    {
                      cerr << program_name << ": cannot write output format!" << endl;
                      usage();
                    }
                  break;

                case 'L': //display a list of plugin type or classes
                  {
                    const char* param=NULL;
                    if(argc>arg+1)
                      param = argv[arg+2];

                    // First assume first arg is a plugin type and
                    // param is a subtype, like babel -L ops gen3D
                    // or first arg is a plugin ID, like babel -L cml
                    OBPlugin* plugin;
                    if ((OBPlugin::GetPlugin("plugins", argv[arg+1]) &&
                         (plugin = OBPlugin::GetPlugin(argv[arg+1], param))) ||
                        (plugin = OBPlugin::GetPlugin(NULL, argv[arg+1])))
                    {
                      //Output details of subtype
                      string txt;
                      plugin->Display(txt, "verbose", argv[arg+1]);
                      cout << "One of the " << plugin->TypeID() << '\n' << txt << endl;
                      return 0;
                    }
                    //...otherwise assume it is a plugin type, like babel -L forcefields
                    //Output list of subtypes
                    OBPlugin::List(argv[arg+1], param);
                    return 0;
                  }
                case '?':
                case 'H':
                  if(isalnum(argv[arg][2]) || arg==argc-2)
                    {
                      if(strncasecmp(argv[arg]+2,"all",3))
                        {
                          const char* pID= (arg==argc-2) ? argv[arg+1] : argv[arg]+2;
                          OBFormat* pFormat = Conv.FindFormat(pID);
                          if(pFormat)
                            {
                              cout << pID << "  " << pFormat->Description() << endl;
                              if(pFormat->Flags() & NOTWRITABLE)
                                cout << " This format is Read-only" << endl;
                              if(pFormat->Flags() & NOTREADABLE)
                                cout << " This format is Write-only" << endl;

                              if(strlen(pFormat->SpecificationURL()))
                                cout << "Specification at: " << pFormat->SpecificationURL() << endl;
                            }
                          else
                            cout << "Format type: " << pID << " was not recognized" <<endl;
                        }
                      else
                        {
                          OBPlugin::List("formats","verbose");
                        }
                    }
                  else
                    help();
                  return 0;

                case '-': //long option --name text
                  {
                    //Do nothing if name is empty
                    //Option's text is the next arg provided it doesn't start with -
                    char* nam = argv[arg]+2;
                    if(*nam != '\0')
                      {
                        string txt;
                        int i;
                        for(i=0; i<Conv.GetOptionParams(nam, OBConversion::GENOPTIONS)
                              && arg<argc-1 && argv[arg+1];++i) //removed  && *argv[arg+1]!='-'
                          {
                            if(!txt.empty()) txt+=' ';
                            txt += argv[++arg];
                          }
                        if(*nam=='-')
                          {
                            // Is a API directive, e.g.---errorlevel
                            //Send to the pseudoformat "obapi" (without any leading -)
                            OBConversion apiConv;
                            OBFormat* pAPI= OBConversion::FindFormat("obapi");
                            if(pAPI)
                              {
                                apiConv.SetOutFormat(pAPI);
                                apiConv.AddOption(nam+1, OBConversion::GENOPTIONS, txt.c_str());
                                apiConv.Write(NULL, &std::cout);
                              }
                          }
                        else
                          // Is a long option name, e.g --addtotitle
                          Conv.AddOption(nam,OBConversion::GENOPTIONS,txt.c_str());
                      }
                  }
                  break;

                case 'm': //multiple output files
                  SplitOrBatch=true;
                  break;

                case 'a': //single character input option
                  p = argv[arg]+2;
                  DoOption(p,Conv,OBConversion::INOPTIONS,arg,argc,argv);
                  break;

                case 'x': //single character output option
                  p = argv[arg]+2;
                  DoOption(p,Conv,OBConversion::OUTOPTIONS,arg,argc,argv);
                  break;

                default: //single character general option
                  p = argv[arg]+1;
                  DoOption(p,Conv,OBConversion::GENOPTIONS,arg,argc,argv);
                  break;
                }
            }
          else
            {
              //filenames
              if(!gotOutType)
                FileList.push_back(argv[arg]);
              else
                OutputFileName = argv[arg];
            }
        }
    }

  if(!gotOutType) //the last file is the output
    {
      if(FileList.empty())
        {
          cerr << "No output file or format spec!" << endl;
          usage();
        }
      OutputFileName = FileList.back();
      FileList.pop_back();
    }

#if defined(_WIN32) && defined(USING_DYNAMIC_LIBS)
  //Expand wildcards in input filenames and add to FileList
  vector<string> tempFileList(FileList);
  FileList.clear();
  vector<string>::iterator itr;
  for(itr=tempFileList.begin();itr!=tempFileList.end();++itr)
    DLHandler::findFiles (FileList, *itr);
#endif

  if (!gotInType)
    {
      if(FileList.empty())
        {
          cerr << "No input file or format spec!" <<endl;
          usage();
        }
    }

  if (!gotOutType)
    {
      pOutFormat = Conv.FormatFromExt(OutputFileName.c_str(), outGzip);
      if(pOutFormat==NULL)
        {
          cerr << program_name << ": cannot write output format!" << endl;
          usage();
        }
    }

    if(!Conv.SetInFormat(pInFormat))
    {
      cerr << "Invalid input format" << endl;
      usage();
    }
    if(!Conv.SetOutFormat(pOutFormat, outGzip))
    {
      cerr << "Invalid output format" << endl;
      usage();
    }

  if(SplitOrBatch)
    {
      //Put * into output file name before extension (or ext.gz)
      if(OutputFileName.empty())
        {
          OutputFileName = "*.";
          if (oext != NULL)
            OutputFileName += oext;
        }
      else
        {
          string::size_type pos = OutputFileName.rfind(".gz");
          if(pos==string::npos)
            pos = OutputFileName.rfind('.');
          else
            pos = OutputFileName.rfind('.',pos-1);
          if(pos==string::npos)
            OutputFileName += '*';
          else
            OutputFileName.insert(pos,"*");
        }
    }

  int count = Conv.FullConvert(FileList, OutputFileName, OutputFileList);

  Conv.ReportNumberConverted(count);

  if(OutputFileList.size()>1)
    {
      clog << OutputFileList.size() << " files output. The first is " << OutputFileList[0] <<endl;
    }

  std::string messageSummary = obErrorLog.GetMessageSummary();
  if (messageSummary.size())
    {
      clog << messageSummary << endl;
    }

#ifdef _DEBUG
  //CM keep window open
  cout << "Press any key to finish" <<endl;
  getch();
#endif

  return 0;
}