src/openbabel/ring.cpp

/**********************************************************************
ring.cpp - Deal with rings, find smallest set of smallest rings (SSSR).
 
Copyright (C) 1998-2001 by OpenEye Scientific Software, Inc.
Some portions Copyright (C) 2001-2005 by Geoffrey R. Hutchison
 
This file is part of the Open Babel project.
For more information, see <http://openbabel.sourceforge.net/>
 
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 "mol.hpp"
#include <deque>

#include "obutil.hpp"

using namespace std;

namespace OpenBabel
{

/*! \class OBRing
    \brief Stores information on rings in a molecule from SSSR perception.

Ring information beyond atom and bond membership is usually not
necessary, but more information can be had about the rings in a
molecule. The OBRing class is used to store the information from a
Smallest Set of Smallest Rings (SSSR) perception of a molecule. The
OBMol member function OBMol::GetSSSR() stores the information it perceives in
a vector<OBRing*> inside the molecule. Perception is only done once
for a molecule unless the connection table is modified. The following
code demonstrates how to extract the SSSR information:
\code
OBMol mol;

vector<OBRing*> vr;
vr = mol.GetSSSR();
\endcode
OBRings store the atom numbers of the atoms in each of the smallest
set of smallest rings in both a vector<int> and an OBBitVec.
An example of how to print out the atom numbers present in all SSSR
rings is show below:
\code
vector<OBRing*>::iterator i;
vector<int>::iterator j;
vector<OBRing*> *rlist = (vector<OBRing*>*)mol.GetData("RingList");
for (i = rlist->begin();i != rlist->end();i++)
{
for(j = (*i)->_path.begin();j != (*i)->_path.end();j++)
    cout << *j << ` `;
cout << endl;
}
\endcode
will produce something like the following output for benzene:
\code
1 2 3 4 5 6
\endcode
Ring information is automatically deleted from an OBMol when it goes
out of scope or the Clear() member function is called.

Implements <a href="http://qsar.sourceforge.net/dicts/blue-obelisk/index.xhtml#findSmallestSetOfSmallestRings">blue-obelisk:findSmallestSetOfSmallestRings</a>.
 */

static int DetermineFRJ(OBMol &);
static void BuildOBRTreeVector(OBAtom*,OBRTree*,vector<OBRTree*>&,OBBitVec&);


void OBMol::FindSSSR()
{
    if (HasSSSRPerceived())
        return;
    SetSSSRPerceived();
    obErrorLog.ThrowError(__func__,
                          "Ran OpenBabel::FindSSSR", obAuditMsg);

    OBRing *ring;
    vector<OBRing*>::iterator j;

    //get frerejaque taking int account multiple possible spanning graphs
    int frj = DetermineFRJ(*this);
    if (frj)
    {
        vector<OBRing*> vr;
        FindRingAtomsAndBonds();

        OBBond *bond;
        vector<OBEdgeBase*> cbonds;
        vector<OBEdgeBase*>::iterator k;

        //restrict search for rings around closure bonds
        for (bond = BeginBond(k);bond;bond = NextBond(k))
            if (bond->IsClosure())
                cbonds.push_back(bond);

        if (!cbonds.empty())
        {
            OBRingSearch rs;
            //search for all rings about closures
            vector<OBEdgeBase*>::iterator i;

            for (i = cbonds.begin();i != cbonds.end();i++)
                rs.AddRingFromClosure(*this,(OBBond*)*i);

            rs.SortRings();
            rs.RemoveRedundant(frj);
            //store the SSSR set

            for (j = rs.BeginRings();j != rs.EndRings();j++)
            {
                ring = new OBRing ((*j)->_path,NumAtoms()+1);
                ring->SetParent(this);
                vr.push_back(ring);
            }
            //rs.WriteRings();
        }

        if (!HasData(OBGenericDataType::RingData))
            SetData(new OBRingData);
        OBRingData *rd = (OBRingData*)GetData(OBGenericDataType::RingData);
        rd->SetData(vr);
    }
}

static int DetermineFRJ(OBMol &mol)
{
    vector<vector<int> >::iterator i;
    vector<vector<int> > cfl;
    //find all continuous graphs in the mol area
    mol.ContigFragList(cfl);

    if (cfl.empty())
        return(0);
    if (cfl.size() == 1)
        return(mol.NumBonds() - mol.NumAtoms() + 1);

    //count up the atoms and bonds belonging to each graph
    OBBond *bond;
    vector<OBEdgeBase*>::iterator j;
    int numatoms,numbonds,frj=0;
    OBBitVec frag;
    for (i = cfl.begin();i != cfl.end();i++)
    {
        frag.Clear();
        frag.FromVecInt(*i);
        numatoms = (*i).size();
        numbonds=0;
        for (bond = mol.BeginBond(j);bond;bond = mol.NextBond(j))
            if (frag.BitIsOn(bond->GetBeginAtomIdx()) &&
                    frag.BitIsOn(bond->GetEndAtomIdx()))
                numbonds++;
        frj += numbonds - numatoms + 1;
    }

    return(frj);
}

void OBRingSearch::RemoveRedundant(int frj)
{
    OBBitVec tmp;
    int i,j;

    //remove identical rings
    for (i = _rlist.size()-1;i > 0;i--)
        for (j = i-1;j >= 0;j--)
            if ((_rlist[i])->_pathset == (_rlist[j])->_pathset)
            {
                delete _rlist[i];
                _rlist.erase(_rlist.begin()+i);
                break;
            }

    //make sure tmp is the same size as the rings
    for (j = 0;j < (signed)_rlist.size();j++)
        tmp = (_rlist[j])->_pathset;

    //remove larger rings that cover the same atoms as smaller rings
    for (i = _rlist.size()-1;i >= 0;i--)
    {
        tmp.Clear();
        for (j = 0;j < (signed)_rlist.size();j++)
            if ((_rlist[j])->_path.size() <= (_rlist[i])->_path.size() && i != j)
                tmp |= (_rlist[j])->_pathset;

        tmp = tmp & (_rlist[i])->_pathset;

        if (tmp == (_rlist[i])->_pathset)
        {
            delete _rlist[i];
            _rlist.erase(_rlist.begin()+i);
        }

        if (_rlist.size() == (unsigned)frj)
            break;
    }
}


void OBRingSearch::AddRingFromClosure(OBMol &mol,OBBond *cbond)
{
    vector<OBRTree*> t1(mol.NumAtoms()+1,(OBRTree*)NULL);
    vector<OBRTree*> t2(mol.NumAtoms()+1,(OBRTree*)NULL);
    OBBitVec bv1,bv2;

    bv1.SetBitOn(cbond->GetEndAtomIdx());
    bv2.SetBitOn(cbond->GetBeginAtomIdx());
    BuildOBRTreeVector(cbond->GetBeginAtom(),NULL,t1,bv1);
    BuildOBRTreeVector(cbond->GetEndAtom(),NULL,t2,bv2);

    bool pathok;
    deque<int> p1,p2;
    vector<OBNodeBase*> path1,path2;
    vector<OBNodeBase*>::iterator m,n;
    vector<OBRTree*>::iterator i;

    for (i = t1.begin();i != t1.end();i++)
        if (*i)
        {
            path1.clear();
            (*i)->PathToRoot(path1);

            if (t2[(*i)->GetAtomIdx()])
            {
                pathok = true;
                path2.clear();
                t2[(*i)->GetAtomIdx()]->PathToRoot(path2);

                p1.clear();
                m = path1.begin();
                if (m != path1.end())
                    p1.push_back((*m)->GetIdx());
                for (m = path1.begin(),m++;m != path1.end();m++)
                {
                    p1.push_back((*m)->GetIdx());
                    p2.clear();
                    for (n = path2.begin(),n++;n != path2.end();n++)
                    {
                        p2.push_front((*n)->GetIdx());
                        if (*n == *m)//don't traverse across identical atoms
                        {
                            p2.pop_front();
                            if (p1.size()+p2.size() > 2)
                                SaveUniqueRing(p1,p2);
                            pathok = false;
                            break;
                        }
                        if ((*n)->IsConnected(*m) && p1.size()+p2.size() > 2)
                            SaveUniqueRing(p1,p2);
                    }
                    if (!pathok)
                        break;
                }
            }
        }

    //clean up OBRTree vectors
    for (i = t1.begin();i != t1.end();i++)
        if (*i)
            delete *i;

    for (i = t2.begin();i != t2.end();i++)
        if (*i)
            delete *i;
}

bool OBRingSearch::SaveUniqueRing(deque<int> &d1,deque<int> &d2)
{
    vector<int> path;
    OBBitVec bv;
    deque<int>::iterator i;

    for (i = d1.begin();i != d1.end();i++)
    {
        bv.SetBitOn(*i);
        path.push_back(*i);
    }

    for (i = d2.begin();i != d2.end();i++)
    {
        bv.SetBitOn(*i);
        path.push_back(*i);
    }

    vector<OBRing*>::iterator j;
    for (j = _rlist.begin();j != _rlist.end();j++)
        if (bv == (*j)->_pathset)
            return(false);

    OBRing *ring = new OBRing;
    ring->_path = path;
    ring->_pathset = bv;
    _rlist.push_back(ring);

    return(true);
}

OBRingSearch::~OBRingSearch()
{
    vector<OBRing*>::iterator i;
    for (i = _rlist.begin();i != _rlist.end();i++)
        delete *i;
}

bool CompareRingSize(const OBRing *a,const OBRing *b)
{
    return(a->PathSize() < b->PathSize());
}

void OBRingSearch::WriteRings()
{
    vector<OBRing*>::iterator i;

    for (i = _rlist.begin();i != _rlist.end();i++)
        cout << (*i)->_pathset << endl;
}

static void FindRings(OBMol &mol,vector<int> &path,OBBitVec &avisit,
                      OBBitVec &bvisit, int natom,int depth );

void OBMol::FindRingAtomsAndBonds()
{
    if (HasFlag(OB_RINGFLAGS_MOL))
        return;
    SetFlag(OB_RINGFLAGS_MOL);

    obErrorLog.ThrowError(__func__,
                          "Ran OpenBabel::FindRingAtomsAndBonds", obAuditMsg);

    OBBitVec avisit,bvisit;
    avisit.Resize(NumAtoms()+1);
    bvisit.Resize(NumAtoms()+1);
    vector<int> path;
    path.resize(NumAtoms()+1);

    for(unsigned int i=1; i<= NumAtoms(); i++ )
        if(!avisit[i])
            FindRings(*this,path,avisit,bvisit,i,0);
}

static void FindRings(OBMol &mol,vector<int> &path,OBBitVec &avisit,
                      OBBitVec &bvisit, int natom,int depth )
{
    OBAtom *atom;
    OBBond *bond;
    vector<OBEdgeBase*>::iterator k;

    if (avisit[natom])
    {
        int j = depth-1;
        bond=mol.GetBond(path[j--]);
        bond->SetInRing();
        while( j >= 0 )
        {
            bond=mol.GetBond(path[j--]);
            bond->SetInRing();
            (bond->GetBeginAtom())->SetInRing();
            (bond->GetEndAtom())->SetInRing();
            if(bond->GetBeginAtomIdx()==static_cast<unsigned int>(natom) || bond->
                    GetEndAtomIdx()==static_cast<unsigned int>(natom))
                break;
        }
    }
    else
    {
        avisit.SetBitOn(natom);
        atom = mol.GetAtom(natom);
        for(bond = atom->BeginBond(k);bond;bond=atom->NextBond(k))
            if( !bvisit[bond->GetIdx()])
            {
                path[depth] = bond->GetIdx();
                bvisit.SetBitOn(bond->GetIdx());
                FindRings(mol,path,avisit,bvisit,bond->GetNbrAtomIdx(atom),
                          depth+1);
            }
    }
}

bool OBRing::IsAromatic()
{
    OBMol *mol = _parent;
    vector<int>::iterator i;
    for (i = _path.begin();i != _path.end();i++)
        if (!(mol->GetAtom(*i))->IsAromatic())
            return(false);

    return(true);
}

bool OBRing::IsMember(OBAtom *a)
{
    return(_pathset.BitIsOn(a->GetIdx()));
}

bool OBRing::IsMember(OBBond *b)
{
    return((_pathset.BitIsOn(b->GetBeginAtomIdx()))&&(_pathset.BitIsOn(b->GetEndAtomIdx())));
}

OBRing::OBRing(vector<int> &path,int size)
{
    _path = path;
    _pathset.FromVecInt(_path);
    _pathset.Resize(size);
}

/*!
**\brief OBRing copy constructor
**\param src reference to original OBRing object (rhs)
*/
OBRing::OBRing(const OBRing &src)
//no base class
        :
        _path(src._path)
        ,       _pathset(src._pathset)  //chain to member classes
{
    //member data
    _parent = src._parent;  //this is messed up, but what can you do?
}

/*!
**\brief OBRing assignment operator
**\param src reference to original OBRing object (rhs)
**\return reference to modified OBRing object (lhs)
*/
OBRing& OBRing::operator =(const OBRing &src)
{
    //on identity, return
    if(this == &src)
        return(*this);

    //no base class

    //memeber classes & data
    _path = src._path;
    _pathset = src._pathset;
    _parent = src._parent; //note, this may not be what you want

    return(*this);
}
void BuildOBRTreeVector(OBAtom *atom,OBRTree *prv,vector<OBRTree*> &vt,OBBitVec &bv)
{
    vt[atom->GetIdx()] = new OBRTree (atom,prv);

    int i;
    OBAtom *nbr;
    OBMol *mol = (OBMol*)atom->GetParent();
    OBBitVec curr,used,next;
    vector<OBEdgeBase*>::iterator j;
    curr |= atom->GetIdx();
    used = bv|curr;

#define OB_RTREE_CUTOFF 20

    int level=0;
    for (;;)
    {
        next.Clear();
        for (i = curr.NextBit(0);i != bv.EndBit();i = curr.NextBit(i))
        {
            atom = mol->GetAtom(i);
            for (nbr = atom->BeginNbrAtom(j);nbr;nbr = atom->NextNbrAtom(j))
                if (!used[nbr->GetIdx()])
                {
                    next |= nbr->GetIdx();
                    used |= nbr->GetIdx();
                    vt[nbr->GetIdx()] = new OBRTree (nbr,vt[atom->GetIdx()]);
                }
        }

        if (next.Empty())
            break;
        curr = next;
        level++;
        if (level > OB_RTREE_CUTOFF)
            break;
    }
#undef OB_RTREE_CUTOFF
}

OBRTree::OBRTree(OBAtom *atom,OBRTree *prv)
{
    _atom = atom;
    _prv = prv;
}

//! The supplied path is built up of OBAtom nodes, with the root atom 
//! the last item in the vector.
void OBRTree::PathToRoot(vector<OBNodeBase*> &path)
{
    path.push_back(_atom);
    if (_prv)
        _prv->PathToRoot(path);
}

int OBRTree::GetAtomIdx()
{
    return(_atom->GetIdx());
}

bool OBRing::findCenterAndNormal(vector3 & center, vector3 &norm1, vector3 &norm2)
{
    OBMol *mol= this->_parent;
    int j= 0;
    const int nA= this->_path.size();
    vector3 tmp;

    center.Set(0.0,0.0,0.0);
    norm1.Set(0.0,0.0,0.0);
    norm2.Set(0.0,0.0,0.0);
    for (j = 0; j != nA; j++)
    {
        center += (mol->GetAtom(_path[j]))->GetVector();
    }
    center/= double(nA);

    for (j = 0; j != nA; j++)
    {
        vector3 v1= (mol->GetAtom(_path[j]))->GetVector() - center;
        vector3 v2= (mol->GetAtom(_path[j+1==nA?0:j+1]))->GetVector() - center;
        tmp= cross(v1,v2);
        norm1+= tmp;
    }
    norm1/= double(nA);
    norm1.normalize();
    norm2= norm1;
    norm2 *= -1.0;
    return(true);
}

} // end namespace OpenBabel

//! \file ring.cpp
//! \brief Deal with rings, find smallest set of smallest rings (SSSR).
Revision:	819
Committed:	Fri Dec 16 21:52:50 2005 UTC (19 years, 10 months ago) by tim
File size:	14835 byte(s)
Log Message:	changed __FUNCTION__ to __func__ to match C99 standard, and then added an autoconf test to check for __func__ usability. Changed some default compile flags for the Sun architecture
#	Content
1	/**********************************************************************
2	ring.cpp - Deal with rings, find smallest set of smallest rings (SSSR).
3
4	Copyright (C) 1998-2001 by OpenEye Scientific Software, Inc.
5	Some portions Copyright (C) 2001-2005 by Geoffrey R. Hutchison
6
7	This file is part of the Open Babel project.
8	For more information, see <http://openbabel.sourceforge.net/>
9
10	This program is free software; you can redistribute it and/or modify
11	it under the terms of the GNU General Public License as published by
12	the Free Software Foundation version 2 of the License.
13
14	This program is distributed in the hope that it will be useful,
15	but WITHOUT ANY WARRANTY; without even the implied warranty of
16	MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
17	GNU General Public License for more details.
18	***********************************************************************/
19
20	#include "mol.hpp"
21	#include <deque>
22
23	#include "obutil.hpp"
24
25	using namespace std;
26
27	namespace OpenBabel
28	{
29
30	/*! \class OBRing
31	\brief Stores information on rings in a molecule from SSSR perception.
32
33	Ring information beyond atom and bond membership is usually not
34	necessary, but more information can be had about the rings in a
35	molecule. The OBRing class is used to store the information from a
36	Smallest Set of Smallest Rings (SSSR) perception of a molecule. The
37	OBMol member function OBMol::GetSSSR() stores the information it perceives in
38	a vector<OBRing*> inside the molecule. Perception is only done once
39	for a molecule unless the connection table is modified. The following
40	code demonstrates how to extract the SSSR information:
41	\code
42	OBMol mol;
43
44	vector<OBRing*> vr;
45	vr = mol.GetSSSR();
46	\endcode
47	OBRings store the atom numbers of the atoms in each of the smallest
48	set of smallest rings in both a vector<int> and an OBBitVec.
49	An example of how to print out the atom numbers present in all SSSR
50	rings is show below:
51	\code
52	vector<OBRing*>::iterator i;
53	vector<int>::iterator j;
54	vector<OBRing> rlist = (vector<OBRing>)mol.GetData("RingList");
55	for (i = rlist->begin();i != rlist->end();i++)
56	{
57	for(j = (i)->_path.begin();j != (i)->_path.end();j++)
58	cout << *j << ` `;
59	cout << endl;
60	}
61	\endcode
62	will produce something like the following output for benzene:
63	\code
64	1 2 3 4 5 6
65	\endcode
66	Ring information is automatically deleted from an OBMol when it goes
67	out of scope or the Clear() member function is called.
68
69	Implements <a href="http://qsar.sourceforge.net/dicts/blue-obelisk/index.xhtml#findSmallestSetOfSmallestRings">blue-obelisk:findSmallestSetOfSmallestRings</a>.
70	*/
71
72	static int DetermineFRJ(OBMol &);
73	static void BuildOBRTreeVector(OBAtom,OBRTree,vector<OBRTree*>&,OBBitVec&);
74
75
76	void OBMol::FindSSSR()
77	{
78	if (HasSSSRPerceived())
79	return;
80	SetSSSRPerceived();
81	obErrorLog.ThrowError(__func__,
82	"Ran OpenBabel::FindSSSR", obAuditMsg);
83
84	OBRing *ring;
85	vector<OBRing*>::iterator j;
86
87	//get frerejaque taking int account multiple possible spanning graphs
88	int frj = DetermineFRJ(*this);
89	if (frj)
90	{
91	vector<OBRing*> vr;
92	FindRingAtomsAndBonds();
93
94	OBBond *bond;
95	vector<OBEdgeBase*> cbonds;
96	vector<OBEdgeBase*>::iterator k;
97
98	//restrict search for rings around closure bonds
99	for (bond = BeginBond(k);bond;bond = NextBond(k))
100	if (bond->IsClosure())
101	cbonds.push_back(bond);
102
103	if (!cbonds.empty())
104	{
105	OBRingSearch rs;
106	//search for all rings about closures
107	vector<OBEdgeBase*>::iterator i;
108
109	for (i = cbonds.begin();i != cbonds.end();i++)
110	rs.AddRingFromClosure(this,(OBBond)*i);
111
112	rs.SortRings();
113	rs.RemoveRedundant(frj);
114	//store the SSSR set
115
116	for (j = rs.BeginRings();j != rs.EndRings();j++)
117	{
118	ring = new OBRing ((*j)->_path,NumAtoms()+1);
119	ring->SetParent(this);
120	vr.push_back(ring);
121	}
122	//rs.WriteRings();
123	}
124
125	if (!HasData(OBGenericDataType::RingData))
126	SetData(new OBRingData);
127	OBRingData rd = (OBRingData)GetData(OBGenericDataType::RingData);
128	rd->SetData(vr);
129	}
130	}
131
132	static int DetermineFRJ(OBMol &mol)
133	{
134	vector<vector<int> >::iterator i;
135	vector<vector<int> > cfl;
136	//find all continuous graphs in the mol area
137	mol.ContigFragList(cfl);
138
139	if (cfl.empty())
140	return(0);
141	if (cfl.size() == 1)
142	return(mol.NumBonds() - mol.NumAtoms() + 1);
143
144	//count up the atoms and bonds belonging to each graph
145	OBBond *bond;
146	vector<OBEdgeBase*>::iterator j;
147	int numatoms,numbonds,frj=0;
148	OBBitVec frag;
149	for (i = cfl.begin();i != cfl.end();i++)
150	{
151	frag.Clear();
152	frag.FromVecInt(*i);
153	numatoms = (*i).size();
154	numbonds=0;
155	for (bond = mol.BeginBond(j);bond;bond = mol.NextBond(j))
156	if (frag.BitIsOn(bond->GetBeginAtomIdx()) &&
157	frag.BitIsOn(bond->GetEndAtomIdx()))
158	numbonds++;
159	frj += numbonds - numatoms + 1;
160	}
161
162	return(frj);
163	}
164
165	void OBRingSearch::RemoveRedundant(int frj)
166	{
167	OBBitVec tmp;
168	int i,j;
169
170	//remove identical rings
171	for (i = _rlist.size()-1;i > 0;i--)
172	for (j = i-1;j >= 0;j--)
173	if ((_rlist[i])->_pathset == (_rlist[j])->_pathset)
174	{
175	delete _rlist[i];
176	_rlist.erase(_rlist.begin()+i);
177	break;
178	}
179
180	//make sure tmp is the same size as the rings
181	for (j = 0;j < (signed)_rlist.size();j++)
182	tmp = (_rlist[j])->_pathset;
183
184	//remove larger rings that cover the same atoms as smaller rings
185	for (i = _rlist.size()-1;i >= 0;i--)
186	{
187	tmp.Clear();
188	for (j = 0;j < (signed)_rlist.size();j++)
189	if ((_rlist[j])->_path.size() <= (_rlist[i])->_path.size() && i != j)
190	tmp \|= (_rlist[j])->_pathset;
191
192	tmp = tmp & (_rlist[i])->_pathset;
193
194	if (tmp == (_rlist[i])->_pathset)
195	{
196	delete _rlist[i];
197	_rlist.erase(_rlist.begin()+i);
198	}
199
200	if (_rlist.size() == (unsigned)frj)
201	break;
202	}
203	}
204
205
206	void OBRingSearch::AddRingFromClosure(OBMol &mol,OBBond *cbond)
207	{
208	vector<OBRTree> t1(mol.NumAtoms()+1,(OBRTree)NULL);
209	vector<OBRTree> t2(mol.NumAtoms()+1,(OBRTree)NULL);
210	OBBitVec bv1,bv2;
211
212	bv1.SetBitOn(cbond->GetEndAtomIdx());
213	bv2.SetBitOn(cbond->GetBeginAtomIdx());
214	BuildOBRTreeVector(cbond->GetBeginAtom(),NULL,t1,bv1);
215	BuildOBRTreeVector(cbond->GetEndAtom(),NULL,t2,bv2);
216
217	bool pathok;
218	deque<int> p1,p2;
219	vector<OBNodeBase*> path1,path2;
220	vector<OBNodeBase*>::iterator m,n;
221	vector<OBRTree*>::iterator i;
222
223	for (i = t1.begin();i != t1.end();i++)
224	if (*i)
225	{
226	path1.clear();
227	(*i)->PathToRoot(path1);
228
229	if (t2[(*i)->GetAtomIdx()])
230	{
231	pathok = true;
232	path2.clear();
233	t2[(*i)->GetAtomIdx()]->PathToRoot(path2);
234
235	p1.clear();
236	m = path1.begin();
237	if (m != path1.end())
238	p1.push_back((*m)->GetIdx());
239	for (m = path1.begin(),m++;m != path1.end();m++)
240	{
241	p1.push_back((*m)->GetIdx());
242	p2.clear();
243	for (n = path2.begin(),n++;n != path2.end();n++)
244	{
245	p2.push_front((*n)->GetIdx());
246	if (n == m)//don't traverse across identical atoms
247	{
248	p2.pop_front();
249	if (p1.size()+p2.size() > 2)
250	SaveUniqueRing(p1,p2);
251	pathok = false;
252	break;
253	}
254	if ((n)->IsConnected(m) && p1.size()+p2.size() > 2)
255	SaveUniqueRing(p1,p2);
256	}
257	if (!pathok)
258	break;
259	}
260	}
261	}
262
263	//clean up OBRTree vectors
264	for (i = t1.begin();i != t1.end();i++)
265	if (*i)
266	delete *i;
267
268	for (i = t2.begin();i != t2.end();i++)
269	if (*i)
270	delete *i;
271	}
272
273	bool OBRingSearch::SaveUniqueRing(deque<int> &d1,deque<int> &d2)
274	{
275	vector<int> path;
276	OBBitVec bv;
277	deque<int>::iterator i;
278
279	for (i = d1.begin();i != d1.end();i++)
280	{
281	bv.SetBitOn(*i);
282	path.push_back(*i);
283	}
284
285	for (i = d2.begin();i != d2.end();i++)
286	{
287	bv.SetBitOn(*i);
288	path.push_back(*i);
289	}
290
291	vector<OBRing*>::iterator j;
292	for (j = _rlist.begin();j != _rlist.end();j++)
293	if (bv == (*j)->_pathset)
294	return(false);
295
296	OBRing *ring = new OBRing;
297	ring->_path = path;
298	ring->_pathset = bv;
299	_rlist.push_back(ring);
300
301	return(true);
302	}
303
304	OBRingSearch::~OBRingSearch()
305	{
306	vector<OBRing*>::iterator i;
307	for (i = _rlist.begin();i != _rlist.end();i++)
308	delete *i;
309	}
310
311	bool CompareRingSize(const OBRing a,const OBRing b)
312	{
313	return(a->PathSize() < b->PathSize());
314	}
315
316	void OBRingSearch::WriteRings()
317	{
318	vector<OBRing*>::iterator i;
319
320	for (i = _rlist.begin();i != _rlist.end();i++)
321	cout << (*i)->_pathset << endl;
322	}
323
324	static void FindRings(OBMol &mol,vector<int> &path,OBBitVec &avisit,
325	OBBitVec &bvisit, int natom,int depth );
326
327	void OBMol::FindRingAtomsAndBonds()
328	{
329	if (HasFlag(OB_RINGFLAGS_MOL))
330	return;
331	SetFlag(OB_RINGFLAGS_MOL);
332
333	obErrorLog.ThrowError(__func__,
334	"Ran OpenBabel::FindRingAtomsAndBonds", obAuditMsg);
335
336	OBBitVec avisit,bvisit;
337	avisit.Resize(NumAtoms()+1);
338	bvisit.Resize(NumAtoms()+1);
339	vector<int> path;
340	path.resize(NumAtoms()+1);
341
342	for(unsigned int i=1; i<= NumAtoms(); i++ )
343	if(!avisit[i])
344	FindRings(*this,path,avisit,bvisit,i,0);
345	}
346
347	static void FindRings(OBMol &mol,vector<int> &path,OBBitVec &avisit,
348	OBBitVec &bvisit, int natom,int depth )
349	{
350	OBAtom *atom;
351	OBBond *bond;
352	vector<OBEdgeBase*>::iterator k;
353
354	if (avisit[natom])
355	{
356	int j = depth-1;
357	bond=mol.GetBond(path[j--]);
358	bond->SetInRing();
359	while( j >= 0 )
360	{
361	bond=mol.GetBond(path[j--]);
362	bond->SetInRing();
363	(bond->GetBeginAtom())->SetInRing();
364	(bond->GetEndAtom())->SetInRing();
365	if(bond->GetBeginAtomIdx()==static_cast<unsigned int>(natom) \|\| bond->
366	GetEndAtomIdx()==static_cast<unsigned int>(natom))
367	break;
368	}
369	}
370	else
371	{
372	avisit.SetBitOn(natom);
373	atom = mol.GetAtom(natom);
374	for(bond = atom->BeginBond(k);bond;bond=atom->NextBond(k))
375	if( !bvisit[bond->GetIdx()])
376	{
377	path[depth] = bond->GetIdx();
378	bvisit.SetBitOn(bond->GetIdx());
379	FindRings(mol,path,avisit,bvisit,bond->GetNbrAtomIdx(atom),
380	depth+1);
381	}
382	}
383	}
384
385	bool OBRing::IsAromatic()
386	{
387	OBMol *mol = _parent;
388	vector<int>::iterator i;
389	for (i = _path.begin();i != _path.end();i++)
390	if (!(mol->GetAtom(*i))->IsAromatic())
391	return(false);
392
393	return(true);
394	}
395
396	bool OBRing::IsMember(OBAtom *a)
397	{
398	return(_pathset.BitIsOn(a->GetIdx()));
399	}
400
401	bool OBRing::IsMember(OBBond *b)
402	{
403	return((_pathset.BitIsOn(b->GetBeginAtomIdx()))&&(_pathset.BitIsOn(b->GetEndAtomIdx())));
404	}
405
406	OBRing::OBRing(vector<int> &path,int size)
407	{
408	_path = path;
409	_pathset.FromVecInt(_path);
410	_pathset.Resize(size);
411	}
412
413	/*!
414	**\brief OBRing copy constructor
415	**\param src reference to original OBRing object (rhs)
416	*/
417	OBRing::OBRing(const OBRing &src)
418	//no base class
419	:
420	_path(src._path)
421	, _pathset(src._pathset) //chain to member classes
422	{
423	//member data
424	_parent = src._parent; //this is messed up, but what can you do?
425	}
426
427	/*!
428	**\brief OBRing assignment operator
429	**\param src reference to original OBRing object (rhs)
430	**\return reference to modified OBRing object (lhs)
431	*/
432	OBRing& OBRing::operator =(const OBRing &src)
433	{
434	//on identity, return
435	if(this == &src)
436	return(*this);
437
438	//no base class
439
440	//memeber classes & data
441	_path = src._path;
442	_pathset = src._pathset;
443	_parent = src._parent; //note, this may not be what you want
444
445	return(*this);
446	}
447	void BuildOBRTreeVector(OBAtom atom,OBRTree prv,vector<OBRTree*> &vt,OBBitVec &bv)
448	{
449	vt[atom->GetIdx()] = new OBRTree (atom,prv);
450
451	int i;
452	OBAtom *nbr;
453	OBMol mol = (OBMol)atom->GetParent();
454	OBBitVec curr,used,next;
455	vector<OBEdgeBase*>::iterator j;
456	curr \|= atom->GetIdx();
457	used = bv\|curr;
458
459	#define OB_RTREE_CUTOFF 20
460
461	int level=0;
462	for (;;)
463	{
464	next.Clear();
465	for (i = curr.NextBit(0);i != bv.EndBit();i = curr.NextBit(i))
466	{
467	atom = mol->GetAtom(i);
468	for (nbr = atom->BeginNbrAtom(j);nbr;nbr = atom->NextNbrAtom(j))
469	if (!used[nbr->GetIdx()])
470	{
471	next \|= nbr->GetIdx();
472	used \|= nbr->GetIdx();
473	vt[nbr->GetIdx()] = new OBRTree (nbr,vt[atom->GetIdx()]);
474	}
475	}
476
477	if (next.Empty())
478	break;
479	curr = next;
480	level++;
481	if (level > OB_RTREE_CUTOFF)
482	break;
483	}
484	#undef OB_RTREE_CUTOFF
485	}
486
487	OBRTree::OBRTree(OBAtom atom,OBRTree prv)
488	{
489	_atom = atom;
490	_prv = prv;
491	}
492
493	//! The supplied path is built up of OBAtom nodes, with the root atom
494	//! the last item in the vector.
495	void OBRTree::PathToRoot(vector<OBNodeBase*> &path)
496	{
497	path.push_back(_atom);
498	if (_prv)
499	_prv->PathToRoot(path);
500	}
501
502	int OBRTree::GetAtomIdx()
503	{
504	return(_atom->GetIdx());
505	}
506
507	bool OBRing::findCenterAndNormal(vector3 & center, vector3 &norm1, vector3 &norm2)
508	{
509	OBMol *mol= this->_parent;
510	int j= 0;
511	const int nA= this->_path.size();
512	vector3 tmp;
513
514	center.Set(0.0,0.0,0.0);
515	norm1.Set(0.0,0.0,0.0);
516	norm2.Set(0.0,0.0,0.0);
517	for (j = 0; j != nA; j++)
518	{
519	center += (mol->GetAtom(_path[j]))->GetVector();
520	}
521	center/= double(nA);
522
523	for (j = 0; j != nA; j++)
524	{
525	vector3 v1= (mol->GetAtom(_path[j]))->GetVector() - center;
526	vector3 v2= (mol->GetAtom(_path[j+1==nA?0:j+1]))->GetVector() - center;
527	tmp= cross(v1,v2);
528	norm1+= tmp;
529	}
530	norm1/= double(nA);
531	norm1.normalize();
532	norm2= norm1;
533	norm2 *= -1.0;
534	return(true);
535	}
536
537	} // end namespace OpenBabel
538
539	//! \file ring.cpp
540	//! \brief Deal with rings, find smallest set of smallest rings (SSSR).