/usr/include/openbabel-2.0/openbabel/data.h is in libopenbabel-dev 2.3.2+dfsg-1.1.
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data.h - Global data and resource file parsers.
Copyright (C) 1998-2001 by OpenEye Scientific Software, Inc.
Some portions Copyright (C) 2001-2006 by Geoffrey R. Hutchison
This file is part of the Open Babel project.
For more information, see <http://openbabel.org/>
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation version 2 of the License.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
***********************************************************************/
#ifndef OB_DATA_H
#define OB_DATA_H
#include <openbabel/babelconfig.h>
#include <stdio.h>
#include <cstring>
#include <fstream>
#include <vector>
#include <string>
#include <cstring>
namespace OpenBabel
{
class OBAtom;
class OBMol;
class OBBitVec;
/** \class OBGlobalDataBase data.h <openbabel/data.h>
\brief Base data table class, handles reading data files
Base data table class--reads ASCII data files in various formats
-# Checks for the environment variable _envvar (defaults to "BABEL_DATADIR")
- Tries the _subdir directory if defined (def. "data") and then the main directory
-# Checks for the directory _dir (def. determined by the build environment)
- Tries the subdirectory corresponding to this version, then the main directory
-# Reverts to the compiled-in default data
**/
class OBAPI OBGlobalDataBase
{
protected:
bool _init; //!< Whether the data been read already
const char *_dataptr;//!< Default data table if file is unreadable
std::string _filename;//!< File to search for
std::string _dir; //!< Data directory for file if _envvar fails
std::string _subdir; //!< Subdirectory (if using environment variable)
std::string _envvar; //!< Environment variable to check first
public:
//! Constructor
OBGlobalDataBase(): _init(false), _dataptr(NULL) { }
//! Destructor
virtual ~OBGlobalDataBase() {}
//! Read in the data file, falling back as needed
void Init();
//! \return the size of the database (for error checking)
virtual size_t GetSize() { return 0;}
//! Set the directory before calling Init()
void SetReadDirectory(char *dir) { _dir = dir; }
//! Set the environment variable to use before calling Init()
void SetEnvironmentVariable(char *var) { _envvar = var; }
//! Specified by particular table classes (parses an individual data line)
virtual void ParseLine(const char*) {}
};
/** \class OBElement data.h <openbabel/data.h>
\brief Individual element data type
Stores a variety of data about an individual element.
Used mainly by OBElementTable.
**/
class OBAPI OBElement
{
int _num;
char _symbol[4];
std::string _name;
double _Rcov,_Rvdw,_mass,_elNeg,_ARENeg,_ionize,_elAffinity;
double _red, _green, _blue;
int _maxbonds;
public:
//! \deprecated Not used. Instead, initialize element properties
OBElement() {}
/** Constructor
@param num Atomic number
@param sym Elemental symbol (maximum 3 characters)
@param ARENeg Allred-Rochow electronegativity
@param rcov Covalent radius (in Angstrom)
@param rvdw van der Waals radius (in Angstrom)
@param maxbo Maximum bonding valence
@param mass Atomic mass (in amu)
@param elNeg Electronegativity (in Pauling units)
@param ionize Ionization potential (in eV)
@param elAffin Electron affinity (in eV)
@param red RGB value for a suggest visualization color (0 .. 1)
@param green RGB value for a suggest visualization color (0 .. 1)
@param blue RGB value for a suggest visualization color (0 .. 1)
@param name Full IUPAC name
**/
OBElement(int num, const char *sym, double ARENeg, double rcov,
double rvdw, int maxbo, double mass, double elNeg, double ionize,
double elAffin, double red, double green, double blue,
std::string name) :
_num(num), _name(name), _Rcov(rcov), _Rvdw(rvdw), _mass(mass),
_elNeg(elNeg), _ARENeg(ARENeg), _ionize(ionize), _elAffinity(elAffin),
_red(red), _green(green), _blue(blue),
_maxbonds(maxbo)
{
strncpy(_symbol, sym, 4);
}
//! \return the atomic number of this element
int GetAtomicNum() { return(_num); }
//! \return the atomic symbol for this element
char *GetSymbol() { return(_symbol); }
//! \return the covalent radius of this element
double GetCovalentRad() { return(_Rcov); }
//! \return the van der Waals radius of this element
double GetVdwRad() { return(_Rvdw); }
//! \return the standard atomic mass for this element (in amu)
double GetMass() { return(_mass); }
//! \return the maximum expected number of bonds to this element
int GetMaxBonds() { return(_maxbonds);}
//! \return the Pauling electronegativity for this element
double GetElectroNeg() { return(_elNeg); }
//! \return the Allred-Rochow electronegativity for this element
double GetAllredRochowElectroNeg() { return(_ARENeg); }
//! \return the ionization potential (in eV) of this element
double GetIonization() { return(_ionize); }
//! \return the electron affinity (in eV) of this element
double GetElectronAffinity(){ return(_elAffinity); }
//! \return the name of this element (in English)
std::string GetName() { return(_name); }
//! \return the red component of this element's default visualization color
double GetRed() { return(_red); }
//! \return the green component of this element's default color
double GetGreen() { return(_green); }
//! \return the blue component of this element's default color
double GetBlue() { return(_blue); }
};
// class introduction in data.cpp
class OBAPI OBElementTable : public OBGlobalDataBase
{
std::vector<OBElement*> _element;
public:
OBElementTable(void);
~OBElementTable();
void ParseLine(const char*);
//! \return the number of elements in the periodic table
unsigned int GetNumberOfElements();
//! \return the number of elements in the periodic table
size_t GetSize() { return GetNumberOfElements(); }
//! \deprecated Does not properly handle 'D' or 'T' hydrogen isotopes
int GetAtomicNum(const char *);
//! \return the atomic number matching the element symbol or IUPAC name
//! passed or 0 if not defined. For 'D' or 'T' hydrogen isotopes, will
//! return a value in the second argument
int GetAtomicNum(const char *, int &iso);
//! Overloads GetAtomicNum(const char *, int &iso)
int GetAtomicNum(std::string name, int &iso);
//! \return the element symbol matching the atomic number passed
const char *GetSymbol(int);
//! \return the van der Waals radius for this atomic number
double GetVdwRad(int);
//! \return the covalent radius for this atomic number
double GetCovalentRad(int);
//! \return the average atomic mass for this element.
//! For exact isotope masses, use OpenBabel::OBIsotopeTable
double GetMass(int);
//! \return a "corrected" bonding radius based on the hybridization.
//! Scales the covalent radius by 0.95 for sp2 and 0.90 for sp hybrids
double CorrectedBondRad(int,int = 3); // atomic #, hybridization
//! \return a "corrected" vdW radius based on the hybridization.
//! Scales the van der Waals radius by 0.95 for sp2 and 0.90 for sp hybrids
double CorrectedVdwRad(int,int = 3); // atomic #, hybridization
//! \return the maximum expected number of bonds to this element
int GetMaxBonds(int);
//! \return the Pauling electronegativity for this element
double GetElectroNeg(int);
//! \return the Allred-Rochow electronegativity for this element
double GetAllredRochowElectroNeg(int);
//! \return the ionization potential (in eV) for this element
double GetIonization(int);
//! \return the electron affinity (in eV) for this element
double GetElectronAffinity(int);
//! \return a vector with red, green, blue color values for this element
std::vector<double> GetRGB(int);
//! \return the name of this element
std::string GetName(int);
};
// class introduction in data.cpp
class OBAPI OBIsotopeTable : public OBGlobalDataBase
{
std::vector<std::vector<std::pair <unsigned int, double> > > _isotopes;
public:
OBIsotopeTable(void);
~OBIsotopeTable() {}
//! \return the number of elements in the isotope table
size_t GetSize() { return _isotopes.size(); }
void ParseLine(const char*);
//! \return the exact masss of the isotope
//! (or by default (i.e. "isotope 0") the most abundant isotope)
double GetExactMass(const unsigned int atomicNum,
const unsigned int isotope = 0);
};
// class introduction in data.cpp
class OBAPI OBTypeTable : public OBGlobalDataBase
{
int _linecount;
unsigned int _ncols,_nrows;
int _from,_to;
std::vector<std::string> _colnames;
std::vector<std::vector<std::string> > _table;
public:
OBTypeTable(void);
~OBTypeTable() {}
void ParseLine(const char*);
//! \return the number of atom types in the translation table
size_t GetSize() { return _table.size(); }
//! Set the initial atom type to be translated
bool SetFromType(const char*);
//! Set the destination atom type for translation
bool SetToType(const char*);
//! Translate atom types
bool Translate(char *to, const char *from); // to, from
//! Translate atom types
//! \return whether the translation was successful
bool Translate(std::string &to, const std::string &from); // to, from
//! Translate atom types
//! \return the translated atom type, or an empty string if not possible
std::string Translate(const std::string &from);
//! \return the initial atom type to be translated
std::string GetFromType();
//! \return the destination atom type for translation
std::string GetToType();
};
/** \class OBResidueData data.h <openbabel/data.h>
\brief Table of common biomolecule residues (for PDB or other files).
Can assign atom types and bond orders for arbitrary residues
**/
class OBAPI OBResidueData : public OBGlobalDataBase
{
int _resnum;
std::vector<std::string> _resname;
std::vector<std::vector<std::string> > _resatoms;
std::vector<std::vector<std::pair<std::string,int> > > _resbonds;
//variables used only temporarily for parsing resdata.txt
std::vector<std::string> _vatmtmp;
std::vector<std::pair<std::string,int> > _vtmp;
public:
OBResidueData();
void ParseLine(const char*);
//! \return the number of residues in the table
size_t GetSize() { return _resname.size(); }
//! Sets the table to access the residue information for a specified
//! residue name
//! \return whether this residue name is in the table
bool SetResName(const std::string &);
//! \return the bond order for the bond specified in the current residue
//! \deprecated Easier to use the two-argument form
int LookupBO(const std::string &);
//! \return the bond order for the bond specified between the two specified
//! atom labels
int LookupBO(const std::string &, const std::string&);
//! Look up the atom type and hybridization for the atom label specified
//! in the first argument for the current residue
//! \return whether the atom label specified is found in the current residue
bool LookupType(const std::string &,std::string&,int&);
//! Assign bond orders, atom types and residues for the supplied OBMol
//! based on the residue information assigned to atoms
//! \deprecated second OBBitVec argument is ignored
bool AssignBonds(OBMol &,OBBitVec &);
};
} // end namespace OpenBabel
#endif //DATA_H
//! \file data.h
//! \brief Global data and resource file parsers.
|