applications/atom2md/openmdformat.cpp

/**********************************************************************
Copyright (C) 2000 by OpenEye Scientific Software, Inc.
Some portions Copyright (C) 2001-2006 by Geoffrey R. Hutchison
Some portions Copyright (C) 2004 by Chris Morley
Some portions Copyright (C) 2008-2009 by J. Daniel Gezelter
 
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.
***********************************************************************/

#include <openbabel/babelconfig.h>
#include <openbabel/obmolecformat.h>
#include <openbabel/obiter.h>
#include <openbabel/mol.h>
#include <openbabel/chains.h>
#include <openbabel/data.h>
#include <fstream>

#include "utils/StringUtils.hpp"

using namespace std;
namespace OpenBabel
{
  
  class OpenMDFormat : public OBMoleculeFormat
  {
  public:
    //Register this format type ID
    OpenMDFormat() 
    {      
      OBConversion::RegisterFormat("md",this);
    }
    
    virtual const char* Description() //required
    {
      return
        "OpenMD combined meta-data / cartesian coordinates format\n\
        No comments yet\n";
    };
    
    virtual const char* SpecificationURL()
    {return "http://www.openmd.net";}; //optional
    
    virtual const char* GetMIMEType() 
    {return "chemical/x-md"; };
    
    virtual unsigned int Flags() 
    { 
      return NOTREADABLE | WRITEONEONLY;
    }
    
    virtual bool WriteMolecule(OBBase* pOb, OBConversion* pConv);

  private:
    bool AreSameFragments(OBMol& mol, vector<int>& frag1, vector<int>& frag2);
    OBMol* createMolFromFragment(OBMol& mol, vector<int>& fragment);
    void WriteMDFile(vector<OBMol*> mols, vector<int> numMols, ostream& os, 
                     OBMol& mol, vector<int>& indices);
    void CalcBoundingBox(OBMol &mol,
                         double &min_x, double &max_x,
                         double &min_y, double &max_y,
                         double &min_z, double &max_z);
      
  };
  
  //Make an instance of the format class
  OpenMDFormat theOpenMDFormat;
 
  bool OpenMDFormat::WriteMolecule(OBBase* pOb, OBConversion* pConv) {
    OBMol* pmol = dynamic_cast<OBMol*>(pOb);
    if(pmol==NULL)
      return false;
    
    vector<vector<int> > fragmentLists;
    pmol->ContigFragList(fragmentLists);
    OBBitVec unused;
    vector<bool> used(fragmentLists.size(), 0);
    vector<vector<int> > molecules;
    vector<int> indices;
    for(int i =0; i < used.size(); ++i) {
      if (used[i]) 
        continue;

      used[i] = true;
      vector<int> sameMolTypes;
      sameMolTypes.push_back(i);
      indices.insert(indices.end(), fragmentLists[i].begin(), 
                     fragmentLists[i].end());
      for (int j = i + 1;j < used.size(); ++j) {
        if (used[j])
          continue;
                
        if (AreSameFragments(*pmol, fragmentLists[i], fragmentLists[j])) {
          sameMolTypes.push_back(j);
          indices.insert(indices.end(), fragmentLists[j].begin(), 
                         fragmentLists[j].end());
          used[j]=true;
        }
      }
      molecules.push_back(sameMolTypes);      
    }
    
    vector<OBMol*> mdMols;    
    vector<int> numMols;
    for(vector<vector<int> >::iterator  i = molecules.begin(); 
        i != molecules.end(); ++i) {
      
      mdMols.push_back(createMolFromFragment(*pmol, 
                                             fragmentLists[i->front()]));
      numMols.push_back((*i).size());
    }
    
    string OutputFileName = pConv->GetInFilename();
    size_t pos = OutputFileName.rfind(".");
    if(pos!=string::npos)
      OutputFileName = OutputFileName.substr(0, pos) + ".md";       
    else
      OutputFileName += ".md";
    
    ofstream ofs(OutputFileName.c_str());
    if(!ofs) {
        cerr << "Cannot write to " << OutputFileName <<endl;
        return false;
    }
    
    WriteMDFile(mdMols, numMols, ofs, *pmol, indices);
    
    for(vector<OBMol*>::iterator  i = mdMols.begin(); i != mdMols.end(); ++i) {
      delete *i;
    }
    
    return(true);
  }
  
  bool OpenMDFormat::AreSameFragments(OBMol& mol, vector<int>& frag1, 
                                     vector<int>& frag2) {
    if (frag1.size() != frag2.size())
      return false;
    
    // Exact graph matching is an NP complete problem.
    // This just matches all of the atom atomic numbers and may falsely 
    // detect identical fragments which aren't really identical.
    // @todo using sparse matrix to store the connectivities 

    for (unsigned int i =0 ; i < frag1.size(); ++i) {
        OBAtom* atom1 = mol.GetAtom(frag1[i]);
        OBAtom* atom2 = mol.GetAtom(frag2[i]);
        
        if (atom1->GetAtomicNum() != atom2->GetAtomicNum()) 
          return false;
        
    }
    return true;
  }
  
  struct SameAngle {
    bool operator()(const triple<OBAtom*,OBAtom*,OBAtom*> t1, 
                    const triple<OBAtom*,OBAtom*,OBAtom*> t2) const {
      return (t1.second == t2.second) && ( (t1.first == t2.first && t1.third == t2.third) || (t1.first == t2.third && t1.third == t2.first));
    }
  };


  OBMol* OpenMDFormat::createMolFromFragment(OBMol& mol, 
                                            vector<int>& fragment) {
    
    OBMol* newMol = new OBMol();
    newMol->ReserveAtoms(fragment.size());
    newMol->BeginModify();
    for(vector<int>::iterator i = fragment.begin(); i != fragment.end(); ++i) {
      OBAtom* newAtom = newMol->NewAtom();
      *newAtom = *mol.GetAtom(*i);
    }

    newMol->EndModify();
    newMol->ConnectTheDots();
    newMol->PerceiveBondOrders();

    return newMol;
  }
  
  void OpenMDFormat::WriteMDFile(vector<OBMol*> mols, vector<int> numMols, 
                                ostream& os, OBMol& mol, 
                                vector<int>& indices) {
    
    std::string molPrefix("MolName");
    std::string resName;
    unsigned int i;
    const int BUFFLEN = 1024;
    char buffer[BUFFLEN];
    string str, str1, str2, str3;
    OBAtom *a, *b, *c, *d;    
    bool molIsWater = false;
    OBResidue *r;
    int resKey, myserial;
    char type_name[10];
    char *element_name;
    int res_num;
    OBChainsParser* chainParser = new OBChainsParser();   
    double min_x, max_x, min_y, max_y, min_z, max_z; /* Edges of bounding box */
    
    os << "<OpenMD version=1>" << endl;
    os << "  <MetaData>" << endl << endl;
    
    for(i = 0; i < mols.size(); ++i) {
      OBMol* pmol = mols[i];
      map<OBAtom*, int> atomMap;

      //chainParser->PerceiveChains(*pmol, false);
      molIsWater = false;
      FOR_RESIDUES_OF_MOL(residue, *pmol) {
        std::cerr << "residue = " << residue->GetName() << "\n";
        if (residue->GetName().compare("HOH") == 0) {
          molIsWater = true;
        }
      }
      
      if (molIsWater) {
        // water include files define all of the known water types
        os << "#include \"water.md\";\n";
        pmol->SetTitle("HOH");
      } else {

        os << "molecule {\n";
        sprintf(buffer, "%d", i);
        os << "  name = \"" << molPrefix << buffer << "\";\n";
        
        int ai = 0;
        FOR_ATOMS_OF_MOL(atom, *pmol ) {
          str = atom->GetType();
          r = atom->GetResidue();
          
          if (r == NULL) 
            resName = "NULL";
          else 
            resName = r->GetName();
          
          if (resName.compare("NULL") ==0 || 
              resName.compare("LIG") == 0 || 
              resName.compare("UNK") == 0) {
            // Either couldn't find a residue at all or couldn't find a
            // reasonable residue name to use.  We'll punt and use
            // OpenBabel's internal atom typing:
            ttab.SetFromType("INT");
            ttab.SetToType("INT");
            ttab.Translate(str1, str);
          } else {                        
            
            // If we know what residue we've got, the specific atom name can
            // be used to help specify partial charges. 

            //resdat.SetResName(resName);
            
            // atom type from residue: 
            str = r->GetAtomID(&*atom);
           
            // arginine has separate indices for chemically-identical
            // nitrogen atoms:
            if (resName.compare("ARG") == 0) {
              if (str.compare("NH1") == 0 || str.compare("NH2") == 0) {
                str = "NH";
              }
            }
            if (resName.compare("VAL") == 0) {
              if (str.compare("CG1") == 0 || str.compare("CG2") == 0) {
                str = "CG";
              }
            }
            if (resName.compare("LEU") == 0) {
              if (str.compare("CD1") == 0 || str.compare("CD2") == 0) {
                str = "CD";
              }
            }
            if (resName.compare("ASP") == 0) {
              if (str.compare("OD1") == 0 || str.compare("OD2") == 0) {
                str = "OD";
              }
            }
            if (resName.compare("GLU") == 0) {
              if (str.compare("OE1") == 0 || str.compare("OE2") == 0) {
                str = "OE";
              }
            }
            if (resName.compare("TYR") == 0) {
              if (str.compare("CD1") == 0 || str.compare("CD2") == 0) {
                str = "CD";
              }
              if (str.compare("CE1") == 0 || str.compare("CE2") == 0) {
                str = "CE";
              }
            }
            

            if ((&*atom)->IsHydrogen()) {
               FOR_NBORS_OF_ATOM(nbr, *atom) {
                 str2 = r->GetAtomID(&*nbr);
                 size_t startpos = str2.find_first_not_of(" ");
                 size_t endpos = str2.find_last_not_of(" ");
                 if ((endpos - startpos) < 1) {
                   // if the bonded atom type has only one character (i.e. N)
                   // then the hydrogen will be labeled "HN" to show what
                   // kind of proton it is:
                   str3 = str2;
                 } else {
                   if (str2.compare("OH") == 0) {
                      str3 = "O";
                   } else {
                     // When the bonded atom type is more specific, we drop
                     // the first character:  i.e. H bonded to OG1 is HG1 type:
                     str3 = str2.substr(startpos+1, endpos-startpos);
                   }
                 }
                str = "H" + str3;
               }
               // same problem with arginine NH atoms, but now for connected hydrogens
               if (resName.compare("ARG") == 0) {
                 if (str.compare("HH1") == 0 || str.compare("HH2") == 0) {
                   str = "HH";
                 }
               }
               if (resName.compare("VAL") == 0) {
                 if (str.compare("HG1") == 0 || str.compare("HG2") == 0) {
                   str = "HG";
                 }
               }
               if (resName.compare("LEU") == 0) {
                 if (str.compare("HD1") == 0 || str.compare("HD2") == 0) {
                   str = "HD";
                 }
               }
               if (resName.compare("TYR") == 0) {
                 if (str.compare("HD1") == 0 || str.compare("HD2") == 0) {
                   str = "HD";
                 }
                 if (str.compare("HE1") == 0 || str.compare("HE2") == 0) {
                   str = "HE";
                 }
               }

            }

            // atom type from residue table:
            //resdat.LookupType(str, str2, hyb);
            size_t startpos = str.find_first_not_of(" ");
            size_t endpos = str.find_last_not_of(" ");
            str = str.substr( startpos, endpos-startpos+1 );
            str1 = resName + "-" + str;
          }       
          os << "  atom[" << ai << "] { ";
          os << "type = " << "\"" << str1 << "\"" << "; ";
          os << "position( " << (&*atom)->GetX() << ", " << (&*atom)->GetY() << ", " << (&*atom)->GetZ() << ");";
          os << "}\n";
          atomMap[&(*atom)] = ai++;
        }        
        os << "\n";
        
        //bond
        
        int b1, b2;
        FOR_BONDS_OF_MOL(bond, *pmol ) {
          b1 = atomMap[bond->GetBeginAtom()];
          b2 = atomMap[bond->GetEndAtom()];
          
          os << "  bond { ";
          
          if (b1 < b2) 
            os << "members(" << b1 <<  ", " << b2 << "); ";
          else
            os << "members(" << b2 <<  ", " << b1 << "); ";
          
          os << "}" << endl;
        } 
        
        os << endl;
       
        os << "}" << endl;
        os << endl;
      }
    }
    
    os << endl;
        
    for(i=0; i < mols.size(); ++i) {
      OBMol* pmol = mols[i];      
      os << "component{" << endl;
      if (std::string(pmol->GetTitle()).compare("HOH") == 0) {
        os << "  type = " << "HOH" << ";" << endl;
      } else {
        sprintf(buffer, "%d", i);
        os << "  type = " << molPrefix << buffer << ";" << endl;
      }
      os << "  nMol = " << numMols[i]<< ";" << endl;
      os << "}" << endl;
    }
    
    os << "  </MetaData>" << endl;
    os << "  <Snapshot>" << endl;
    os << "    <FrameData>" << endl;
    
    sprintf(buffer, "        Time: %.10g", 0.0);
    
    os << buffer << endl;

    CalcBoundingBox(mol, min_x, max_x, min_y, max_y, min_z, max_z);

    // still to do: should compute a bounding box here
    sprintf(buffer, "        Hmat: {{ %.10g, %.10g, %.10g }, { %.10g, %.10g, %.10g }, { %.10g, %.10g, %.10g }}", 
            max_x - min_x, 0.0, 0.0, 0.0, max_y - min_y, 0.0, 0.0, 0.0, max_z - min_z);
    
    os << buffer << endl;
    os << "    </FrameData>" << endl;
    os << "    <StuntDoubles>" << endl;
    
    OBAtom *atom;
    
    // still to do: intercept waters and recompute pvqj lines

    for(vector<int>::iterator i = indices.begin();i != indices.end(); ++i) {     
      atom = mol.GetAtom(*i);
      sprintf(buffer, "%10d %7s %18.10g %18.10g %18.10g %13e %13e %13e", *i - 1, 
              "pv", atom->GetX(), atom->GetY(), atom->GetZ(), 0.0, 0.0, 0.0);
      os << buffer << endl;
    }
    os << "    </StuntDoubles>" << endl;
    os << "  </Snapshot>" << endl;
    os << "</OpenMD>" << endl;
  }

  void OpenMDFormat::CalcBoundingBox(OBMol &mol,
                                    double &min_x, double &max_x,
                                    double &min_y, double &max_y,
                                    double &min_z, double &max_z
                                    )
  {
    /* ---- Init bounding-box variables ---- */
    min_x = (double) 0.0;
    max_x = (double) 0.0;
    min_y = (double) 0.0;
    max_y = (double) 0.0;
    min_z = (double) 0.0;
    max_z = (double) 0.0;
    
    /* ---- Check all atoms ---- */
    for(unsigned int i = 1; i <= mol.NumAtoms(); ++i)
      {
        
        /* ---- Get a pointer to ith atom ---- */
        OBAtom *atom = mol.GetAtom(i);
        
        /* ---- Check for minimal/maximal x-position ---- */
        if (atom -> GetX() < min_x)
          min_x = atom -> GetX();
        if (atom -> GetX() > max_x)
          max_x = atom -> GetX();
        
        /* ---- Check for minimal/maximal y-position ---- */
        if (atom -> GetY() < min_y)
          min_y = atom -> GetY();
        if (atom -> GetY() > max_y)
          max_y = atom -> GetY();
        
        /* ---- Check for minimal/maximal z-position ---- */
        if (atom -> GetZ() < min_z)
          min_z = atom -> GetZ();
        if (atom -> GetZ() > max_z)
          max_z = atom -> GetZ();
        
      }    
  }
} //namespace OpenBabel

Revision:	1399
Committed:	Thu Dec 24 05:45:30 2009 UTC (15 years, 4 months ago) by gezelter
File size:	15297 byte(s)
Log Message:	fixing atom2md and bringing it up to speed with OpenBabel 2.2.3
#	Content
1	/**********************************************************************
2	Copyright (C) 2000 by OpenEye Scientific Software, Inc.
3	Some portions Copyright (C) 2001-2006 by Geoffrey R. Hutchison
4	Some portions Copyright (C) 2004 by Chris Morley
5	Some portions Copyright (C) 2008-2009 by J. Daniel Gezelter
6
7	This program is free software; you can redistribute it and/or modify
8	it under the terms of the GNU General Public License as published by
9	the Free Software Foundation version 2 of the License.
10
11	This program is distributed in the hope that it will be useful,
12	but WITHOUT ANY WARRANTY; without even the implied warranty of
13	MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14	GNU General Public License for more details.
15	***********************************************************************/
16
17	#include <openbabel/babelconfig.h>
18	#include <openbabel/obmolecformat.h>
19	#include <openbabel/obiter.h>
20	#include <openbabel/mol.h>
21	#include <openbabel/chains.h>
22	#include <openbabel/data.h>
23	#include <fstream>
24
25	#include "utils/StringUtils.hpp"
26
27	using namespace std;
28	namespace OpenBabel
29	{
30
31	class OpenMDFormat : public OBMoleculeFormat
32	{
33	public:
34	//Register this format type ID
35	OpenMDFormat()
36	{
37	OBConversion::RegisterFormat("md",this);
38	}
39
40	virtual const char* Description() //required
41	{
42	return
43	"OpenMD combined meta-data / cartesian coordinates format\n\
44	No comments yet\n";
45	};
46
47	virtual const char* SpecificationURL()
48	{return "http://www.openmd.net";}; //optional
49
50	virtual const char* GetMIMEType()
51	{return "chemical/x-md"; };
52
53	virtual unsigned int Flags()
54	{
55	return NOTREADABLE \| WRITEONEONLY;
56	}
57
58	virtual bool WriteMolecule(OBBase* pOb, OBConversion* pConv);
59
60	private:
61	bool AreSameFragments(OBMol& mol, vector<int>& frag1, vector<int>& frag2);
62	OBMol* createMolFromFragment(OBMol& mol, vector<int>& fragment);
63	void WriteMDFile(vector<OBMol*> mols, vector<int> numMols, ostream& os,
64	OBMol& mol, vector<int>& indices);
65	void CalcBoundingBox(OBMol &mol,
66	double &min_x, double &max_x,
67	double &min_y, double &max_y,
68	double &min_z, double &max_z);
69
70	};
71
72	//Make an instance of the format class
73	OpenMDFormat theOpenMDFormat;
74
75	bool OpenMDFormat::WriteMolecule(OBBase* pOb, OBConversion* pConv) {
76	OBMol* pmol = dynamic_cast<OBMol*>(pOb);
77	if(pmol==NULL)
78	return false;
79
80	vector<vector<int> > fragmentLists;
81	pmol->ContigFragList(fragmentLists);
82	OBBitVec unused;
83	vector<bool> used(fragmentLists.size(), 0);
84	vector<vector<int> > molecules;
85	vector<int> indices;
86	for(int i =0; i < used.size(); ++i) {
87	if (used[i])
88	continue;
89
90	used[i] = true;
91	vector<int> sameMolTypes;
92	sameMolTypes.push_back(i);
93	indices.insert(indices.end(), fragmentLists[i].begin(),
94	fragmentLists[i].end());
95	for (int j = i + 1;j < used.size(); ++j) {
96	if (used[j])
97	continue;
98
99	if (AreSameFragments(*pmol, fragmentLists[i], fragmentLists[j])) {
100	sameMolTypes.push_back(j);
101	indices.insert(indices.end(), fragmentLists[j].begin(),
102	fragmentLists[j].end());
103	used[j]=true;
104	}
105	}
106	molecules.push_back(sameMolTypes);
107	}
108
109	vector<OBMol*> mdMols;
110	vector<int> numMols;
111	for(vector<vector<int> >::iterator i = molecules.begin();
112	i != molecules.end(); ++i) {
113
114	mdMols.push_back(createMolFromFragment(*pmol,
115	fragmentLists[i->front()]));
116	numMols.push_back((*i).size());
117	}
118
119	string OutputFileName = pConv->GetInFilename();
120	size_t pos = OutputFileName.rfind(".");
121	if(pos!=string::npos)
122	OutputFileName = OutputFileName.substr(0, pos) + ".md";
123	else
124	OutputFileName += ".md";
125
126	ofstream ofs(OutputFileName.c_str());
127	if(!ofs) {
128	cerr << "Cannot write to " << OutputFileName <<endl;
129	return false;
130	}
131
132	WriteMDFile(mdMols, numMols, ofs, *pmol, indices);
133
134	for(vector<OBMol*>::iterator i = mdMols.begin(); i != mdMols.end(); ++i) {
135	delete *i;
136	}
137
138	return(true);
139	}
140
141	bool OpenMDFormat::AreSameFragments(OBMol& mol, vector<int>& frag1,
142	vector<int>& frag2) {
143	if (frag1.size() != frag2.size())
144	return false;
145
146	// Exact graph matching is an NP complete problem.
147	// This just matches all of the atom atomic numbers and may falsely
148	// detect identical fragments which aren't really identical.
149	// @todo using sparse matrix to store the connectivities
150
151	for (unsigned int i =0 ; i < frag1.size(); ++i) {
152	OBAtom* atom1 = mol.GetAtom(frag1[i]);
153	OBAtom* atom2 = mol.GetAtom(frag2[i]);
154
155	if (atom1->GetAtomicNum() != atom2->GetAtomicNum())
156	return false;
157
158	}
159	return true;
160	}
161
162	struct SameAngle {
163	bool operator()(const triple<OBAtom,OBAtom,OBAtom*> t1,
164	const triple<OBAtom,OBAtom,OBAtom*> t2) const {
165	return (t1.second == t2.second) && ( (t1.first == t2.first && t1.third == t2.third) \|\| (t1.first == t2.third && t1.third == t2.first));
166	}
167	};
168
169
170	OBMol* OpenMDFormat::createMolFromFragment(OBMol& mol,
171	vector<int>& fragment) {
172
173	OBMol* newMol = new OBMol();
174	newMol->ReserveAtoms(fragment.size());
175	newMol->BeginModify();
176	for(vector<int>::iterator i = fragment.begin(); i != fragment.end(); ++i) {
177	OBAtom* newAtom = newMol->NewAtom();
178	newAtom = mol.GetAtom(*i);
179	}
180
181	newMol->EndModify();
182	newMol->ConnectTheDots();
183	newMol->PerceiveBondOrders();
184
185	return newMol;
186	}
187
188	void OpenMDFormat::WriteMDFile(vector<OBMol*> mols, vector<int> numMols,
189	ostream& os, OBMol& mol,
190	vector<int>& indices) {
191
192	std::string molPrefix("MolName");
193	std::string resName;
194	unsigned int i;
195	const int BUFFLEN = 1024;
196	char buffer[BUFFLEN];
197	string str, str1, str2, str3;
198	OBAtom a, b, c, d;
199	bool molIsWater = false;
200	OBResidue *r;
201	int resKey, myserial;
202	char type_name[10];
203	char *element_name;
204	int res_num;
205	OBChainsParser* chainParser = new OBChainsParser();
206	double min_x, max_x, min_y, max_y, min_z, max_z; /* Edges of bounding box */
207
208	os << "<OpenMD version=1>" << endl;
209	os << " <MetaData>" << endl << endl;
210
211	for(i = 0; i < mols.size(); ++i) {
212	OBMol* pmol = mols[i];
213	map<OBAtom*, int> atomMap;
214
215	//chainParser->PerceiveChains(*pmol, false);
216	molIsWater = false;
217	FOR_RESIDUES_OF_MOL(residue, *pmol) {
218	std::cerr << "residue = " << residue->GetName() << "\n";
219	if (residue->GetName().compare("HOH") == 0) {
220	molIsWater = true;
221	}
222	}
223
224	if (molIsWater) {
225	// water include files define all of the known water types
226	os << "#include \"water.md\";\n";
227	pmol->SetTitle("HOH");
228	} else {
229
230	os << "molecule {\n";
231	sprintf(buffer, "%d", i);
232	os << " name = \"" << molPrefix << buffer << "\";\n";
233
234	int ai = 0;
235	FOR_ATOMS_OF_MOL(atom, *pmol ) {
236	str = atom->GetType();
237	r = atom->GetResidue();
238
239	if (r == NULL)
240	resName = "NULL";
241	else
242	resName = r->GetName();
243
244	if (resName.compare("NULL") ==0 \|\|
245	resName.compare("LIG") == 0 \|\|
246	resName.compare("UNK") == 0) {
247	// Either couldn't find a residue at all or couldn't find a
248	// reasonable residue name to use. We'll punt and use
249	// OpenBabel's internal atom typing:
250	ttab.SetFromType("INT");
251	ttab.SetToType("INT");
252	ttab.Translate(str1, str);
253	} else {
254
255	// If we know what residue we've got, the specific atom name can
256	// be used to help specify partial charges.
257
258	//resdat.SetResName(resName);
259
260	// atom type from residue:
261	str = r->GetAtomID(&*atom);
262
263	// arginine has separate indices for chemically-identical
264	// nitrogen atoms:
265	if (resName.compare("ARG") == 0) {
266	if (str.compare("NH1") == 0 \|\| str.compare("NH2") == 0) {
267	str = "NH";
268	}
269	}
270	if (resName.compare("VAL") == 0) {
271	if (str.compare("CG1") == 0 \|\| str.compare("CG2") == 0) {
272	str = "CG";
273	}
274	}
275	if (resName.compare("LEU") == 0) {
276	if (str.compare("CD1") == 0 \|\| str.compare("CD2") == 0) {
277	str = "CD";
278	}
279	}
280	if (resName.compare("ASP") == 0) {
281	if (str.compare("OD1") == 0 \|\| str.compare("OD2") == 0) {
282	str = "OD";
283	}
284	}
285	if (resName.compare("GLU") == 0) {
286	if (str.compare("OE1") == 0 \|\| str.compare("OE2") == 0) {
287	str = "OE";
288	}
289	}
290	if (resName.compare("TYR") == 0) {
291	if (str.compare("CD1") == 0 \|\| str.compare("CD2") == 0) {
292	str = "CD";
293	}
294	if (str.compare("CE1") == 0 \|\| str.compare("CE2") == 0) {
295	str = "CE";
296	}
297	}
298
299
300	if ((&*atom)->IsHydrogen()) {
301	FOR_NBORS_OF_ATOM(nbr, *atom) {
302	str2 = r->GetAtomID(&*nbr);
303	size_t startpos = str2.find_first_not_of(" ");
304	size_t endpos = str2.find_last_not_of(" ");
305	if ((endpos - startpos) < 1) {
306	// if the bonded atom type has only one character (i.e. N)
307	// then the hydrogen will be labeled "HN" to show what
308	// kind of proton it is:
309	str3 = str2;
310	} else {
311	if (str2.compare("OH") == 0) {
312	str3 = "O";
313	} else {
314	// When the bonded atom type is more specific, we drop
315	// the first character: i.e. H bonded to OG1 is HG1 type:
316	str3 = str2.substr(startpos+1, endpos-startpos);
317	}
318	}
319	str = "H" + str3;
320	}
321	// same problem with arginine NH atoms, but now for connected hydrogens
322	if (resName.compare("ARG") == 0) {
323	if (str.compare("HH1") == 0 \|\| str.compare("HH2") == 0) {
324	str = "HH";
325	}
326	}
327	if (resName.compare("VAL") == 0) {
328	if (str.compare("HG1") == 0 \|\| str.compare("HG2") == 0) {
329	str = "HG";
330	}
331	}
332	if (resName.compare("LEU") == 0) {
333	if (str.compare("HD1") == 0 \|\| str.compare("HD2") == 0) {
334	str = "HD";
335	}
336	}
337	if (resName.compare("TYR") == 0) {
338	if (str.compare("HD1") == 0 \|\| str.compare("HD2") == 0) {
339	str = "HD";
340	}
341	if (str.compare("HE1") == 0 \|\| str.compare("HE2") == 0) {
342	str = "HE";
343	}
344	}
345
346	}
347
348	// atom type from residue table:
349	//resdat.LookupType(str, str2, hyb);
350	size_t startpos = str.find_first_not_of(" ");
351	size_t endpos = str.find_last_not_of(" ");
352	str = str.substr( startpos, endpos-startpos+1 );
353	str1 = resName + "-" + str;
354	}
355	os << " atom[" << ai << "] { ";
356	os << "type = " << "\"" << str1 << "\"" << "; ";
357	os << "position( " << (&atom)->GetX() << ", " << (&atom)->GetY() << ", " << (&*atom)->GetZ() << ");";
358	os << "}\n";
359	atomMap[&(*atom)] = ai++;
360	}
361	os << "\n";
362
363	//bond
364
365	int b1, b2;
366	FOR_BONDS_OF_MOL(bond, *pmol ) {
367	b1 = atomMap[bond->GetBeginAtom()];
368	b2 = atomMap[bond->GetEndAtom()];
369
370	os << " bond { ";
371
372	if (b1 < b2)
373	os << "members(" << b1 << ", " << b2 << "); ";
374	else
375	os << "members(" << b2 << ", " << b1 << "); ";
376
377	os << "}" << endl;
378	}
379
380	os << endl;
381
382	os << "}" << endl;
383	os << endl;
384	}
385	}
386
387	os << endl;
388
389	for(i=0; i < mols.size(); ++i) {
390	OBMol* pmol = mols[i];
391	os << "component{" << endl;
392	if (std::string(pmol->GetTitle()).compare("HOH") == 0) {
393	os << " type = " << "HOH" << ";" << endl;
394	} else {
395	sprintf(buffer, "%d", i);
396	os << " type = " << molPrefix << buffer << ";" << endl;
397	}
398	os << " nMol = " << numMols[i]<< ";" << endl;
399	os << "}" << endl;
400	}
401
402	os << " </MetaData>" << endl;
403	os << " <Snapshot>" << endl;
404	os << " <FrameData>" << endl;
405
406	sprintf(buffer, " Time: %.10g", 0.0);
407
408	os << buffer << endl;
409
410	CalcBoundingBox(mol, min_x, max_x, min_y, max_y, min_z, max_z);
411
412	// still to do: should compute a bounding box here
413	sprintf(buffer, " Hmat: {{ %.10g, %.10g, %.10g }, { %.10g, %.10g, %.10g }, { %.10g, %.10g, %.10g }}",
414	max_x - min_x, 0.0, 0.0, 0.0, max_y - min_y, 0.0, 0.0, 0.0, max_z - min_z);
415
416	os << buffer << endl;
417	os << " </FrameData>" << endl;
418	os << " <StuntDoubles>" << endl;
419
420	OBAtom *atom;
421
422	// still to do: intercept waters and recompute pvqj lines
423
424	for(vector<int>::iterator i = indices.begin();i != indices.end(); ++i) {
425	atom = mol.GetAtom(*i);
426	sprintf(buffer, "%10d %7s %18.10g %18.10g %18.10g %13e %13e %13e", *i - 1,
427	"pv", atom->GetX(), atom->GetY(), atom->GetZ(), 0.0, 0.0, 0.0);
428	os << buffer << endl;
429	}
430	os << " </StuntDoubles>" << endl;
431	os << " </Snapshot>" << endl;
432	os << "</OpenMD>" << endl;
433	}
434
435	void OpenMDFormat::CalcBoundingBox(OBMol &mol,
436	double &min_x, double &max_x,
437	double &min_y, double &max_y,
438	double &min_z, double &max_z
439	)
440	{
441	/* ---- Init bounding-box variables ---- */
442	min_x = (double) 0.0;
443	max_x = (double) 0.0;
444	min_y = (double) 0.0;
445	max_y = (double) 0.0;
446	min_z = (double) 0.0;
447	max_z = (double) 0.0;
448
449	/* ---- Check all atoms ---- */
450	for(unsigned int i = 1; i <= mol.NumAtoms(); ++i)
451	{
452
453	/* ---- Get a pointer to ith atom ---- */
454	OBAtom *atom = mol.GetAtom(i);
455
456	/* ---- Check for minimal/maximal x-position ---- */
457	if (atom -> GetX() < min_x)
458	min_x = atom -> GetX();
459	if (atom -> GetX() > max_x)
460	max_x = atom -> GetX();
461
462	/* ---- Check for minimal/maximal y-position ---- */
463	if (atom -> GetY() < min_y)
464	min_y = atom -> GetY();
465	if (atom -> GetY() > max_y)
466	max_y = atom -> GetY();
467
468	/* ---- Check for minimal/maximal z-position ---- */
469	if (atom -> GetZ() < min_z)
470	min_z = atom -> GetZ();
471	if (atom -> GetZ() > max_z)
472	max_z = atom -> GetZ();
473
474	}
475	}
476	} //namespace OpenBabel
477