src/openbabel/gromos96format.cpp

/**********************************************************************
Copyright (C) 1998-2001 by OpenEye Scientific Software, Inc.
Some portions Copyright (C) 2001-2005 by Geoffrey R. Hutchison
Some portions Copyright (C) 2004 by Chris Morley
 
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.
***********************************************************************/

/* contributed by Walter Scott (wscott@igc.phys.chem.ethz.ch)
 
   (Actually the routine was copied from write_xyz and and write_pdb and
   then modified...)
 
   This is a small routine to write a GROMOS96 formatted 
   "position coordinate block" (POSITION) or a
   "reduced position coordinate block" (POSITIONRED)
   The former has name information (atom and residue names) while
   the latter only has coordinates.
   This version does not support the writing of binary
   GROMOS files.
 
   NOTE 1: the actual formats used in writing out the coordinates
   do not matter, as GROMOS96 uses free formatted reads.
   Each line may not be longer than 80 characters.
 
   (Note, however, in the POSITION block, the first 24 (twenty four)
   character on each line are ignored when the line is read in by GROMOS)
   Comments lines, beginning with hash (#) may occur within a block and are
   used as delimiters for easier reading.
 
   NOTE 2: Many programs specify the units of the coordinates (e.g. Angstrom).
   GROMOS96 does NOT, as all physical constants, from K_B to EPS are 
   NOT hardwired into the code, but specified by the user.
   This allows some (mostly Americans) to use GROMOS96 in KCal and
   Angstrom and the rest of us to use kJoule and nm.
   It also makes it easy to use reduced units.
 
   We get around this by supplying a routine, wr_sco_gr96, which
   will scale the coordinates by a factor before writing.
   This routine is then called with the factor set to 1.0 in 
   write_gr96A, or to 0.1 in write_gr96N depending on the users choice.
   Thus, we always assume that we have read coordinates in Angstrom.
         *** But now handled by a command line option in new framework.
*/

#include "gromos96format.hpp"


using namespace std;
namespace OpenBabel
{
bool GROMOS96Format::WriteMolecule(OBBase* pOb, OBConversion* pConv)
{
    OBMol* pmol = dynamic_cast<OBMol*>(pOb);
    if(pmol==NULL)
        return false;

    //Define some references so we can use the old parameter names
    ostream &ofs = *pConv->GetOutStream();
    OBMol &mol = *pmol;
    double fac = pConv->IsOption("n") ? 0.1 : 1.0; //new framework

    char type_name[10];
    char res_name[10],padded_name[10];
    char buffer[BUFF_SIZE];
    int res_num;

    sprintf(buffer,"#GENERATED BY OPEN BABEL %s",BABEL_VERSION);
    ofs << buffer << endl;

    /* GROMOS wants a TITLE block, so let's write one*/
    sprintf(buffer,"TITLE\n%s\nEND",mol.GetTitle());
    ofs << buffer << endl;
    ofs << "POSITION" << endl;

    OBAtom *atom;
    OBResidue *res;
    vector<OBNodeBase*>::iterator i;

    for(atom = mol.BeginAtom(i);atom;atom = mol.NextAtom(i))
    {
      if ( (res = atom->GetResidue()) )
        {
            strcpy(res_name,(char*)res->GetName().c_str());
            strcpy(type_name,(char*)res->GetAtomID(atom).c_str());
            res_num = res->GetNum();
        }
        else
        {
            strcpy(type_name,etab.GetSymbol(atom->GetAtomicNum()));
            strcpy(res_name,"UNK");
            sprintf(padded_name,"%2s",type_name);
            strcpy(type_name,padded_name);
            res_num = 1;
        }

        sprintf(buffer,"%5d %5s %5s %6d %15.5f %15.5f %15.5f",
                res_num,res_name,type_name,atom->GetIdx(),
                atom->x()*fac,atom->y()*fac,atom->z()*fac);
        ofs << buffer << endl;

        if (!(atom->GetIdx()%10))
        {
            sprintf(buffer,"# %d",atom->GetIdx());
            ofs << buffer << endl;
        }
    }

    ofs << "END" << endl;

    return(true);
}

} //namespace OpenBabel
Revision:	746
Committed:	Wed Nov 16 21:22:51 2005 UTC (19 years, 5 months ago) by tim
File size:	4316 byte(s)
Log Message:	adding more readers/writers
#	User	Rev	Content
1	tim	746	/**********************************************************************
2			Copyright (C) 1998-2001 by OpenEye Scientific Software, Inc.
3			Some portions Copyright (C) 2001-2005 by Geoffrey R. Hutchison
4			Some portions Copyright (C) 2004 by Chris Morley
5
6			This program is free software; you can redistribute it and/or modify
7			it under the terms of the GNU General Public License as published by
8			the Free Software Foundation version 2 of the License.
9
10			This program is distributed in the hope that it will be useful,
11			but WITHOUT ANY WARRANTY; without even the implied warranty of
12			MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
13			GNU General Public License for more details.
14			***********************************************************************/
15
16			/* contributed by Walter Scott (wscott@igc.phys.chem.ethz.ch)
17
18			(Actually the routine was copied from write_xyz and and write_pdb and
19			then modified...)
20
21			This is a small routine to write a GROMOS96 formatted
22			"position coordinate block" (POSITION) or a
23			"reduced position coordinate block" (POSITIONRED)
24			The former has name information (atom and residue names) while
25			the latter only has coordinates.
26			This version does not support the writing of binary
27			GROMOS files.
28
29			NOTE 1: the actual formats used in writing out the coordinates
30			do not matter, as GROMOS96 uses free formatted reads.
31			Each line may not be longer than 80 characters.
32
33			(Note, however, in the POSITION block, the first 24 (twenty four)
34			character on each line are ignored when the line is read in by GROMOS)
35			Comments lines, beginning with hash (#) may occur within a block and are
36			used as delimiters for easier reading.
37
38			NOTE 2: Many programs specify the units of the coordinates (e.g. Angstrom).
39			GROMOS96 does NOT, as all physical constants, from K_B to EPS are
40			NOT hardwired into the code, but specified by the user.
41			This allows some (mostly Americans) to use GROMOS96 in KCal and
42			Angstrom and the rest of us to use kJoule and nm.
43			It also makes it easy to use reduced units.
44
45			We get around this by supplying a routine, wr_sco_gr96, which
46			will scale the coordinates by a factor before writing.
47			This routine is then called with the factor set to 1.0 in
48			write_gr96A, or to 0.1 in write_gr96N depending on the users choice.
49			Thus, we always assume that we have read coordinates in Angstrom.
50			*** But now handled by a command line option in new framework.
51			*/
52
53			#include "gromos96format.hpp"
54
55
56			using namespace std;
57			namespace OpenBabel
58			{
59			bool GROMOS96Format::WriteMolecule(OBBase* pOb, OBConversion* pConv)
60			{
61			OBMol* pmol = dynamic_cast<OBMol*>(pOb);
62			if(pmol==NULL)
63			return false;
64
65			//Define some references so we can use the old parameter names
66			ostream &ofs = *pConv->GetOutStream();
67			OBMol &mol = *pmol;
68			double fac = pConv->IsOption("n") ? 0.1 : 1.0; //new framework
69
70			char type_name[10];
71			char res_name[10],padded_name[10];
72			char buffer[BUFF_SIZE];
73			int res_num;
74
75			sprintf(buffer,"#GENERATED BY OPEN BABEL %s",BABEL_VERSION);
76			ofs << buffer << endl;
77
78			/* GROMOS wants a TITLE block, so let's write one*/
79			sprintf(buffer,"TITLE\n%s\nEND",mol.GetTitle());
80			ofs << buffer << endl;
81			ofs << "POSITION" << endl;
82
83			OBAtom *atom;
84			OBResidue *res;
85			vector<OBNodeBase*>::iterator i;
86
87			for(atom = mol.BeginAtom(i);atom;atom = mol.NextAtom(i))
88			{
89			if ( (res = atom->GetResidue()) )
90			{
91			strcpy(res_name,(char*)res->GetName().c_str());
92			strcpy(type_name,(char*)res->GetAtomID(atom).c_str());
93			res_num = res->GetNum();
94			}
95			else
96			{
97			strcpy(type_name,etab.GetSymbol(atom->GetAtomicNum()));
98			strcpy(res_name,"UNK");
99			sprintf(padded_name,"%2s",type_name);
100			strcpy(type_name,padded_name);
101			res_num = 1;
102			}
103
104			sprintf(buffer,"%5d %5s %5s %6d %15.5f %15.5f %15.5f",
105			res_num,res_name,type_name,atom->GetIdx(),
106			atom->x()fac,atom->y()fac,atom->z()*fac);
107			ofs << buffer << endl;
108
109			if (!(atom->GetIdx()%10))
110			{
111			sprintf(buffer,"# %d",atom->GetIdx());
112			ofs << buffer << endl;
113			}
114			}
115
116			ofs << "END" << endl;
117
118			return(true);
119			}
120
121			} //namespace OpenBabel