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root/OpenMD/trunk/src/openbabel/smilesformat.cpp
Revision: 751
Committed: Thu Nov 17 20:38:45 2005 UTC (19 years, 11 months ago) by gezelter
File size: 68001 byte(s)
Log Message: 
Unifying config.h stuff and making sure the OpenBabel codes can find
our default (and environment variable) Force Field directories.

File Contents

# Content
1 /**********************************************************************
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 //Contains SMIFormat and FIXFormat classes
16
17 #include "smilesformat.hpp"
18
19
20 using namespace std;
21
22 namespace OpenBabel
23 {
24 class OBSmiNode
25 {
26 OBAtom *_atom,*_parent;
27 std::vector<OBSmiNode*> _nextnode;
28 std::vector<OBBond*> _nextbond;
29 public:
30 OBSmiNode(OBAtom *atom);
31 ~OBSmiNode();
32 int Size()
33 {
34 return((_nextnode.empty())?0:_nextnode.size());
35 }
36 void SetParent(OBAtom *a)
37 {
38 _parent = a;
39 }
40 void SetNextNode(OBSmiNode*,OBBond*);
41 OBAtom *GetAtom()
42 {
43 return(_atom);
44 }
45 OBAtom *GetParent()
46 {
47 return(_parent);
48 }
49 OBAtom *GetNextAtom(int i)
50 {
51 return(_nextnode[i]->GetAtom());
52 }
53 OBBond *GetNextBond(int i)
54 {
55 return(_nextbond[i]);
56 }
57 OBSmiNode *GetNextNode(int i)
58 {
59 return(_nextnode[i]);
60 }
61 };
62
63 class OBMol2Smi
64 {
65 std::vector<int> _atmorder;
66 std::vector<int> _storder;
67 std::vector<bool> _aromNH;
68 OBBitVec _uatoms,_ubonds;
69 std::vector<OBEdgeBase*> _vclose;
70 std::vector<std::pair<OBAtom*,std::pair<int,int> > > _vopen;
71 OBConversion* _pconv;
72 public:
73 OBMol2Smi()
74 {
75 _vclose.clear();
76 }
77 ~OBMol2Smi()
78 {}
79 int GetUnusedIndex();
80 void Init(OBConversion* pconv=NULL);
81 void CreateSmiString(OBMol&,char*);
82 void GetClosureAtoms(OBAtom*,std::vector<OBNodeBase*>&);
83 void FindClosureBonds(OBMol&);
84 void ToSmilesString(OBSmiNode *node,char *buffer);
85 void RemoveUsedClosures();
86 void AssignCisTrans(OBSmiNode*);
87 bool BuildTree(OBSmiNode*);
88 bool GetSmilesElement(OBSmiNode*,char*);
89 bool GetChiralStereo(OBSmiNode*,char*);
90 void CorrectAromaticAmineCharge(OBMol&);
91 std::vector<std::pair<int,OBBond*> > GetClosureDigits(OBAtom*);
92 std::vector<int> &GetOutputOrder()
93 {
94 return(_atmorder);
95 }
96 };
97
98 bool WriteTheSmiles(OBMol & mol,char *out);
99
100 /////////////////////////////////////////////////////////////////
101 class OBSmilesParser
102 {
103 int _bondflags;
104 int _order;
105 int _prev;
106 char *_ptr;
107 vector<int> _vprev;
108 vector<vector<int> > _rclose;
109 vector<vector<int> > _extbond;
110 vector<int> _path;
111 vector<bool> _avisit;
112 vector<bool> _bvisit;
113 char _buffer[BUFF_SIZE];
114 bool chiralWatch; // set when a chiral atom is read
115 map<OBAtom*,OBChiralData*> _mapcd; // map of ChiralAtoms and their data
116 public:
117
118 OBSmilesParser() { }
119 ~OBSmilesParser() { }
120
121 bool SmiToMol(OBMol&,string&);
122 bool ParseSmiles(OBMol&);
123 bool ParseSimple(OBMol&);
124 bool ParseComplex(OBMol&);
125 bool ParseRingBond(OBMol&);
126 bool ParseExternalBond(OBMol&);
127 bool CapExternalBonds(OBMol &mol);
128 void FindAromaticBonds(OBMol &mol,OBAtom*,int);
129 void FindAromaticBonds(OBMol&);
130 void FindOrphanAromaticAtoms(OBMol &mol); //CM 18 Sept 2003
131 };
132
133 /////////////////////////////////////////////////////////////////
134 bool SMIFormat::ReadMolecule(OBBase* pOb, OBConversion* pConv)
135 {
136 OBMol* pmol = dynamic_cast<OBMol*>(pOb);
137
138 //Define some references so we can use the old parameter names
139 istream &ifs = *pConv->GetInStream();
140 OBMol &mol = *pmol;
141 const char* title = pConv->GetTitle();
142
143 //Taken unchanged from ReadSmiles
144 char buffer[BUFF_SIZE];
145
146 if (!ifs.getline(buffer,BUFF_SIZE))
147 return(false);
148 vector<string> vs;
149 tokenize(vs,buffer);
150
151 // RWT 10/3/2000
152 //
153 // added the following to allow spaces in compound names (titles).
154 // Essentially everything after the first space on a SMILES file line
155 // is treated as the name.
156 // Also had to change the condition a few lines below from:
157 // if (vs.size() == 2) ... to
158 // if (vs.size() >= 2)
159
160 if (vs.size() > 2)
161 {
162 for (unsigned int i=2;i<vs.size(); i++)
163 {
164 vs[1]=vs[1]+" "+vs[i];
165 }
166 }
167
168 if (vs.empty())
169 return false;
170 mol.SetDimension(0);
171
172 if (vs.size() >= 2)
173 mol.SetTitle(vs[1].c_str());
174
175 OBSmilesParser sp;
176 return sp.SmiToMol(mol,vs[0]);
177 }
178
179 //////////////////////////////////////////////////
180 bool SMIFormat::WriteMolecule(OBBase* pOb,OBConversion* pConv)
181 {
182 OBMol* pmol = dynamic_cast<OBMol*>(pOb);
183
184 //Define some references so we can use the old parameter names
185 ostream &ofs = *pConv->GetOutStream();
186 OBMol &mol = *pmol;
187
188 if(pConv->IsOption("t")) //Title only option
189 {
190 ofs << mol.GetTitle() <<endl;
191 return true;
192 }
193 char buffer[BUFF_SIZE];
194 *buffer='\0'; //empty buffer
195
196 // This is a hack to prevent recursion problems.
197 // we still need to fix the underlying problem (mainly chiral centers) -GRH
198 if (mol.NumAtoms() > 1000)
199 {
200 #ifdef HAVE_SSTREAM
201 stringstream errorMsg;
202 #else
203 strstream errorMsg;
204 #endif
205 errorMsg << "SMILES Conversion failed: Molecule is too large to convert. Open Babel is currently limited to 1000 atoms." << endl;
206 errorMsg << " Molecule size: " << mol.NumAtoms() << " atoms " << endl;
207 obErrorLog.ThrowError(__FUNCTION__, errorMsg.str(), obWarning);
208 return(false);
209 }
210
211 if(mol.NumAtoms()!=0)
212 {
213 OBMol2Smi m2s;
214 m2s.Init(pConv);
215 m2s.CorrectAromaticAmineCharge(mol);
216 m2s.CreateSmiString(mol,buffer);
217 }
218
219 ofs << buffer ;
220 if(!pConv->IsOption("n"))
221 ofs << '\t' << mol.GetTitle();
222 ofs << endl;
223
224 return true;
225 }
226
227 //////////////////////////////////////////////
228
229 //CM not needed extern OBAromaticTyper aromtyper;
230 //OBAtomTyper atomtyperx; //CM
231
232 bool OBSmilesParser::SmiToMol(OBMol &mol,string &s)
233 {
234 strcpy(_buffer,s.c_str());
235
236 _vprev.clear();
237 _rclose.clear();
238 _prev=0;
239 chiralWatch=false;
240
241 if (!ParseSmiles(mol))
242 {
243 mol.Clear();
244 return(false);
245 }
246
247 // mol.AddHydrogens(); // need to add implicit hydrogens
248
249 return(true);
250 }
251
252 bool OBSmilesParser::ParseSmiles(OBMol &mol)
253 {
254 mol.BeginModify();
255
256 for (_ptr=_buffer;*_ptr;_ptr++)
257 {
258 if (isspace(*_ptr))
259 continue;
260 else if (isdigit(*_ptr) || *_ptr == '%') //ring open/close
261 {
262 ParseRingBond(mol);
263 continue;
264 }
265 else if(*_ptr == '&') //external bond
266 {
267 ParseExternalBond(mol);
268 continue;
269 }
270 else
271 switch(*_ptr)
272 {
273 case '.':
274 _prev=0;
275 break;
276 case '(':
277 _vprev.push_back(_prev);
278 break;
279 case ')':
280 if(_vprev.empty()) //CM
281 return false;
282 _prev = _vprev.back();
283 _vprev.pop_back();
284 break;
285 case '[':
286 if (!ParseComplex(mol))
287 {
288 mol.EndModify();
289 mol.Clear();
290 return(false);
291 }
292 break;
293 case '-':
294 _order = 1;
295 break;
296 case '=':
297 _order = 2;
298 break;
299 case '#':
300 _order = 3;
301 break;
302 case ':':
303 _order = 5;
304 break;
305 case '/':
306 _bondflags |= OB_TORDOWN_BOND;
307 break;
308 case '\\':
309 _bondflags |= OB_TORUP_BOND;
310 break;
311 default:
312 if (!ParseSimple(mol))
313 {
314 mol.EndModify();
315 mol.Clear();
316 return(false);
317 }
318 } // end switch
319 } // end for _ptr
320
321 // place dummy atoms for each unfilled external bond
322 if(!_extbond.empty())
323 CapExternalBonds(mol);
324
325 //set aromatic bond orders
326 mol.SetAromaticPerceived();
327 FindAromaticBonds(mol);
328 FindOrphanAromaticAtoms(mol);// CM 18 Sept 2003
329 mol.AssignSpinMultiplicity();
330 mol.UnsetAromaticPerceived();
331
332 mol.EndModify();
333
334 //NE add the OBChiralData stored inside the _mapcd to the atoms now after end
335 // modify so they don't get lost.
336 if(_mapcd.size()>0)
337 {
338 OBAtom* atom;
339 OBChiralData* cd;
340 map<OBAtom*,OBChiralData*>::iterator ChiralSearch;
341 for(ChiralSearch=_mapcd.begin();ChiralSearch!=_mapcd.end();ChiralSearch++)
342 {
343 atom=ChiralSearch->first;
344 cd=ChiralSearch->second;
345 atom->SetData(cd);
346 }
347 }
348
349 return(true);
350 }
351
352 // CM 18 Sept 2003
353 void OBSmilesParser::FindOrphanAromaticAtoms(OBMol &mol)
354 {
355 //Facilitates the use lower case shorthand for radical entry
356 //Atoms which are marked as aromatic but have no aromatic bonds
357 //are taken to be radical centres
358 OBAtom *atom;
359 vector<OBNodeBase*>::iterator j;
360
361 for (atom = mol.BeginAtom(j);atom;atom = mol.NextAtom(j))
362 if(atom->IsAromatic())
363 {
364 if(atom->CountBondsOfOrder(5)<2) //bonds order 5 set in FindAromaticBonds()
365 //not proper aromatic atoms - could be conjugated chain or radical centre
366 atom->UnsetAromatic();
367 else
368 {
369 //recognized as aromatic, so are not radicals
370 atom->SetSpinMultiplicity(0);
371 }
372 }
373 }
374
375 void OBSmilesParser::FindAromaticBonds(OBMol &mol)
376 {
377 _path.clear();
378 _avisit.clear();
379 _bvisit.clear();
380 _avisit.resize(mol.NumAtoms()+1);
381 _bvisit.resize(mol.NumBonds());
382 _path.resize(mol.NumAtoms()+1);
383
384 OBBond *bond;
385 vector<OBEdgeBase*>::iterator i;
386 for (bond = mol.BeginBond(i);bond;bond = mol.NextBond(i))
387 if (!bond->GetBeginAtom()->IsAromatic() ||
388 !bond->GetEndAtom()->IsAromatic())
389 _bvisit[bond->GetIdx()] = true;
390
391 OBAtom *atom;
392 vector<OBNodeBase*>::iterator j;
393
394 for (atom = mol.BeginAtom(j);atom;atom = mol.NextAtom(j))
395 if(!_avisit[atom->GetIdx()] && atom->IsAromatic())
396 FindAromaticBonds(mol,atom,0);
397 }
398
399 void OBSmilesParser::FindAromaticBonds(OBMol &mol,OBAtom *atom,int depth )
400 {
401 OBBond *bond;
402 vector<OBEdgeBase*>::iterator k;
403
404 if (_avisit[atom->GetIdx()])
405 {
406 int j = depth-1;
407 bond=mol.GetBond(_path[j--]);
408 bond->SetBO(5);
409 while( j >= 0 )
410 {
411 bond=mol.GetBond(_path[j--]);
412 bond->SetBO(5);
413 if(bond->GetBeginAtom() == atom || bond->GetEndAtom() == atom)
414 break;
415 }
416 }
417 else
418 {
419 _avisit[atom->GetIdx()] = true;
420 for(bond = atom->BeginBond(k);bond;bond = atom->NextBond(k))
421 if( !_bvisit[bond->GetIdx()])
422 {
423 _path[depth] = bond->GetIdx();
424 _bvisit[bond->GetIdx()] = true;
425 FindAromaticBonds(mol,bond->GetNbrAtom(atom),depth+1);
426 }
427 }
428 }
429
430
431 bool OBSmilesParser::ParseSimple(OBMol &mol)
432 {
433 char symbol[3];
434 int element;
435 bool arom=false;
436 memset(symbol,'\0',sizeof(char)*3);
437
438 if (isupper(*_ptr))
439 switch(*_ptr)
440 {
441 case 'C':
442 _ptr++;
443 if (*_ptr == 'l')
444 {
445 strcpy(symbol,"Cl");
446 element = 17;
447 }
448 else
449 {
450 symbol[0] = 'C';
451 element = 6;
452 _ptr--;
453 }
454 break;
455
456 case 'N':
457 element = 7;
458 symbol[0] = 'N';
459 break;
460 case 'O':
461 element = 8;
462 symbol[0] = 'O';
463 break;
464 case 'S':
465 element = 16;
466 symbol[0] = 'S';
467 break;
468 case 'P':
469 element = 15;
470 symbol[0] = 'P';
471 break;
472 case 'F':
473 element = 9;
474 symbol[0] = 'F';
475 break;
476 case 'I':
477 element = 53;
478 symbol[0] = 'I';
479 break;
480
481 case 'B':
482 _ptr++;
483 if (*_ptr == 'r')
484 {
485 element = 35;
486 strcpy(symbol,"Br");
487 }
488 else
489 {
490 element = 5;
491 symbol[0] = 'B';
492 _ptr--;
493 }
494 break;
495 default:
496 return(false);
497 }
498 else
499 {
500 arom = true;
501 switch(*_ptr)
502 {
503 case 'c':
504 element = 6;
505 symbol[0] = 'C';
506 break;
507 case 'n':
508 element = 7;
509 symbol[0] = 'N';
510 break;
511 case 'o':
512 element = 8;
513 symbol[0] = 'O';
514 break;
515 case 'p':
516 element = 15;
517 symbol[0] = 'P';
518 break;
519 case 's':
520 element = 16;
521 symbol[0] = 'S';
522 break;
523 case '*':
524 element = 0;
525 strcpy(symbol,"Du");
526 break;
527 default:
528 return(false);
529 }
530 }
531
532 OBAtom *atom = mol.NewAtom();
533 atom->SetAtomicNum(element);
534 atom->SetType(symbol);
535 if (arom)
536 {
537 atom->SetAromatic();
538 atom->SetSpinMultiplicity(2); // CM 18 Sept 2003
539 }
540
541 if (_prev) //need to add bond
542 {
543 /* CM 18 Sept 2003
544 An extension to the SMILES format has been added so that lower case c,n,o can
545 represent a radical centre: CcC is isopropyl radical;
546 and cccc... a carbon chain bonded by conjugated double bonds.
547 Fails sometimes when using c as both aromatic and as the extened form.
548 For benzyl radical C6H5CH2. c1ccccc1c is ok; c1cc(c)ccc1 fails.
549 Radical centres should not be involved in ring closure:
550 for cyclohexyl radical C1cCCCC1 is ok, c1CCCCC1 is not.
551
552 Implementation
553 Atoms c,n,o, etc initially added as a radical centre
554 unless _prev is a radical centre when both are made a normal atoms
555 connected by a double bond.
556 Since they are still marked as aromatic, FindAromaticBonds() will
557 replace the bonds by aromatic bonds if they are in a ring.
558 FindOrphanAromand removes the aromatic tag from the atoms not found in this way
559 and removes stray radical centres in .
560
561 To avoid difficulties in complex aromatics with 5 membered rings containing N and O,
562 the above scheme modified to prevent recognition of aromatic structures is not confused.
563 - the double bond is made single if it would exceed valence of atom (not all aromatics have conjugated bonds)
564 - the radical centre is removed on both atoms when forming a ring (in ParseRingBond())
565 and on the new atom if the valence of the prev atom is being exceeded.
566 Note that the bond orders made here are reassigned in aromatic structures in FindAromaticBonds()
567 */
568 if(arom)
569 {
570 OBAtom* prevatom = mol.GetAtom(_prev);
571
572 //Calculate available valency on prevatom
573 //This is far more difficult than it should be!
574 //Data not always updated during molecule constuction.
575 int val=0;
576 if(prevatom->IsCarbon())
577 val=4;
578 else if(prevatom->IsNitrogen())
579 val=3;
580 else if(prevatom->IsPhosphorus())
581 val=3;
582 else if(prevatom->IsOxygen())
583 val=2;
584 else if(prevatom->IsSulfur())
585 val=2;
586
587 /* int sumBO=0;
588 vector<OBEdgeBase*>::iterator itr;
589 OBBond* bond = prevatom->BeginBond(itr);
590 while(bond)
591 {
592 sumBO +=bond->GetBO();
593 bond=prevatom->NextBond(itr);
594 }
595 if(prevatom->BOSum() != sumBO)
596 cerr << "BOSum != sumBO" << endl;
597 */
598 int AvailableValence = val + prevatom->GetFormalCharge() - prevatom->BOSum();//sumBO;
599
600 if (prevatom->GetSpinMultiplicity())
601 {
602 prevatom->SetSpinMultiplicity(0);
603 atom->SetSpinMultiplicity(0);
604
605 //Make the new bond double unless not allowed by prevatom's valence
606 _order = AvailableValence>=2 ? 2 : 1 ;
607 }
608 else
609 if(AvailableValence<1) //Must be complex aromatic with O, N
610 atom->SetSpinMultiplicity(0); //radical centres not appropriate in complex aromatics
611 }
612 // CM end
613 mol.AddBond(_prev,mol.NumAtoms(),_order,_bondflags);
614
615 //NE iterate through and see if atom is bonded to chiral atom
616 map<OBAtom*,OBChiralData*>::iterator ChiralSearch;
617 ChiralSearch=_mapcd.find(mol.GetAtom(_prev));
618 if (ChiralSearch!=_mapcd.end() && ChiralSearch->second != NULL)
619 {
620 (ChiralSearch->second)->AddAtomRef(mol.NumAtoms(), input);
621 // cout << "Line 650: Adding "<<mol.NumAtoms()<<" to "<<ChiralSearch->second<<endl;
622 }
623 }
624 //set values
625 _prev = mol.NumAtoms();
626 _order = 1;
627 _bondflags = 0;
628
629 return(true);
630 }
631
632 bool OBSmilesParser::ParseComplex(OBMol &mol)
633 {
634 char symbol[7];
635 int element=0;
636 int isotope=0;
637 int isoPtr=0;
638 bool arom=false;
639 memset(symbol,'\0',sizeof(char)*7);
640
641 _ptr++;
642
643 //grab isotope information
644 for (;*_ptr && isdigit(*_ptr);_ptr++)
645 {
646 symbol[isoPtr] = *_ptr;
647 isoPtr++;
648 }
649 isotope = atoi(symbol);
650
651 //parse element data
652 if (isupper(*_ptr))
653 switch(*_ptr)
654 {
655 case 'C':
656 _ptr++;
657 switch(*_ptr)
658 {
659 case 'a':
660 element = 20;
661 strcpy(symbol,"Ca");
662 break;
663 case 'd':
664 element = 48;
665 strcpy(symbol,"Cd");
666 break;
667 case 'e':
668 element = 58;
669 strcpy(symbol,"Ce");
670 break;
671 case 'f':
672 element = 98;
673 strcpy(symbol,"Cf");
674 break;
675 case 'l':
676 element = 17;
677 strcpy(symbol,"Cl");
678 break;
679 case 'm':
680 element = 96;
681 strcpy(symbol,"Cm");
682 break;
683 case 'o':
684 element = 27;
685 strcpy(symbol,"Co");
686 break;
687 case 'r':
688 element = 24;
689 strcpy(symbol,"Cr");
690 break;
691 case 's':
692 element = 55;
693 strcpy(symbol,"Cs");
694 break;
695 case 'u':
696 element = 29;
697 strcpy(symbol,"Cu");
698 break;
699 default:
700 element = 6;
701 symbol[0] = 'C';
702 _ptr--;
703 }
704 break;
705
706 case 'N':
707 _ptr++;
708 switch(*_ptr)
709 {
710 case 'a':
711 element = 11;
712 strcpy(symbol,"Na");
713 break;
714 case 'b':
715 element = 41;
716 strcpy(symbol,"Nb");
717 break;
718 case 'd':
719 element = 60;
720 strcpy(symbol,"Nd");
721 break;
722 case 'e':
723 element = 10;
724 strcpy(symbol,"Ne");
725 break;
726 case 'i':
727 element = 28;
728 strcpy(symbol,"Ni");
729 break;
730 case 'o':
731 element = 102;
732 strcpy(symbol,"No");
733 break;
734 case 'p':
735 element = 93;
736 strcpy(symbol,"Np");
737 break;
738 default:
739 element = 7;
740 symbol[0] = 'N';
741 _ptr--;
742 }
743 break;
744
745 case('O'):
746 _ptr++;
747 if(*_ptr == 's')
748 {
749 element = 76;
750 strcpy(symbol,"Os");
751 }
752 else
753 {
754 element = 8;
755 symbol[0] = 'O';
756 _ptr--;
757 }
758 break;
759
760 case 'P':
761 _ptr++;
762 switch(*_ptr)
763 {
764 case 'a':
765 element = 91;
766 strcpy(symbol,"Pa");
767 break;
768 case 'b':
769 element = 82;
770 strcpy(symbol,"Pb");
771 break;
772 case 'd':
773 element = 46;
774 strcpy(symbol,"Pd");
775 break;
776 case 'm':
777 element = 61;
778 strcpy(symbol,"Pm");
779 break;
780 case 'o':
781 element = 84;
782 strcpy(symbol,"Po");
783 break;
784 case 'r':
785 element = 59;
786 strcpy(symbol,"Pr");
787 break;
788 case 't':
789 element = 78;
790 strcpy(symbol,"Pt");
791 break;
792 case 'u':
793 element = 94;
794 strcpy(symbol,"Pu");
795 break;
796 default:
797 element = 15;
798 symbol[0] = 'P';
799 _ptr--;
800 }
801 break;
802
803 case('S'):
804 _ptr++;
805 switch(*_ptr)
806 {
807 case 'b':
808 element = 51;
809 strcpy(symbol,"Sb");
810 break;
811 case 'c':
812 element = 21;
813 strcpy(symbol,"Sc");
814 break;
815 case 'e':
816 element = 34;
817 strcpy(symbol,"Se");
818 break;
819 case 'i':
820 element = 14;
821 strcpy(symbol,"Si");
822 break;
823 case 'm':
824 element = 62;
825 strcpy(symbol,"Sm");
826 break;
827 case 'n':
828 element = 50;
829 strcpy(symbol,"Sn");
830 break;
831 case 'r':
832 element = 38;
833 strcpy(symbol,"Sr");
834 break;
835 default:
836 element = 16;
837 symbol[0] = 'S';
838 _ptr--;
839 }
840 break;
841
842 case 'B':
843 _ptr++;
844 switch(*_ptr)
845 {
846 case 'a':
847 element = 56;
848 strcpy(symbol,"Ba");
849 break;
850 case 'e':
851 element = 4;
852 strcpy(symbol,"Be");
853 break;
854 case 'i':
855 element = 83;
856 strcpy(symbol,"Bi");
857 break;
858 case 'k':
859 element = 97;
860 strcpy(symbol,"Bk");
861 break;
862 case 'r':
863 element = 35;
864 strcpy(symbol,"Br");
865 break;
866 default:
867 element = 5;
868 symbol[0] = 'B';
869 _ptr--;
870 }
871 break;
872
873 case 'F':
874 _ptr++;
875 switch(*_ptr)
876 {
877 case 'e':
878 element = 26;
879 strcpy(symbol,"Fe");
880 break;
881 case 'm':
882 element = 100;
883 strcpy(symbol,"Fm");
884 break;
885 case 'r':
886 element = 87;
887 strcpy(symbol,"Fr");
888 break;
889 default:
890 element = 9;
891 symbol[0] = 'F';
892 _ptr--;
893 }
894 break;
895
896 case 'I':
897 _ptr++;
898 switch(*_ptr)
899 {
900 case 'n':
901 element = 49;
902 strcpy(symbol,"In");
903 break;
904 case 'r':
905 element = 77;
906 strcpy(symbol,"Ir");
907 break;
908 default:
909 element = 53;
910 symbol[0] = 'I';
911 _ptr--;
912 }
913 break;
914
915 case 'A':
916 _ptr++;
917 switch(*_ptr)
918 {
919 case 'c':
920 element = 89;
921 strcpy(symbol,"Ac");
922 break;
923 case 'g':
924 element = 47;
925 strcpy(symbol,"Ag");
926 break;
927 case 'l':
928 element = 13;
929 strcpy(symbol,"Al");
930 break;
931 case 'm':
932 element = 95;
933 strcpy(symbol,"Am");
934 break;
935 case 'r':
936 element = 18;
937 strcpy(symbol,"Ar");
938 break;
939 case 's':
940 element = 33;
941 strcpy(symbol,"As");
942 break;
943 case 't':
944 element = 85;
945 strcpy(symbol,"At");
946 break;
947 case 'u':
948 element = 79;
949 strcpy(symbol,"Au");
950 break;
951 default:
952 _ptr--;
953 return(false);
954 }
955 break;
956
957 case 'D':
958 _ptr++;
959 if (*_ptr == 'y')
960 {
961 element = 66;
962 strcpy(symbol,"Dy");
963 }
964 else
965 {
966 _ptr--;
967 return(false);
968 }
969 break;
970
971 case 'E':
972 _ptr++;
973 switch(*_ptr)
974 {
975 case 'r':
976 element = 68;
977 strcpy(symbol,"Er");
978 break;
979 case 's':
980 element = 99;
981 strcpy(symbol,"Es");
982 break;
983 case 'u':
984 element = 63;
985 strcpy(symbol,"Eu");
986 break;
987 default:
988 _ptr--;
989 return(false);
990 }
991 break;
992
993 case 'G':
994 _ptr++;
995 switch (*_ptr)
996 {
997 case 'a':
998 element = 31;
999 strcpy(symbol,"Ga");
1000 break;
1001 case 'd':
1002 element = 64;
1003 strcpy(symbol,"Gd");
1004 break;
1005 case 'e':
1006 element = 32;
1007 strcpy(symbol,"Ge");
1008 break;
1009 default:
1010 _ptr--;
1011 return(false);
1012 }
1013 break;
1014
1015 case 'H':
1016 _ptr++;
1017 switch (*_ptr)
1018 {
1019 case 'e':
1020 element = 2;
1021 strcpy(symbol,"He");
1022 break;
1023 case 'f':
1024 element = 72;
1025 strcpy(symbol,"Hf");
1026 break;
1027 case 'g':
1028 element = 80;
1029 strcpy(symbol,"Hg");
1030 break;
1031 case 'o':
1032 element = 67;
1033 strcpy(symbol,"Ho");
1034 break;
1035 default:
1036 element = 1;
1037 symbol[0] = 'H';
1038 _ptr--;
1039 }
1040 break;
1041
1042 case 'K':
1043 _ptr++;
1044 if(*_ptr == 'r')
1045 {
1046 element = 36;
1047 strcpy(symbol,"Kr");
1048 }
1049 else
1050 {
1051 element = 19;
1052 symbol[0] = 'K';
1053 _ptr--;
1054 }
1055 break;
1056
1057 case 'L':
1058 _ptr++;
1059 switch(*_ptr)
1060 {
1061 case 'a':
1062 element = 57;
1063 strcpy(symbol,"La");
1064 break;
1065 case 'i':
1066 element = 3;
1067 strcpy(symbol,"Li");
1068 break;
1069 case 'r':
1070 element = 103;
1071 strcpy(symbol,"Lr");
1072 break;
1073 case 'u':
1074 element = 71;
1075 strcpy(symbol,"Lu");
1076 break;
1077 default:
1078 _ptr--;
1079 return(false);
1080 }
1081 break;
1082
1083 case 'M':
1084 _ptr++;
1085 switch(*_ptr)
1086 {
1087 case 'd':
1088 element = 101;
1089 strcpy(symbol,"Md");
1090 break;
1091 case 'g':
1092 element = 12;
1093 strcpy(symbol,"Mg");
1094 break;
1095 case 'n':
1096 element = 25;
1097 strcpy(symbol,"Mn");
1098 break;
1099 case 'o':
1100 element = 42;
1101 strcpy(symbol,"Mo");
1102 break;
1103 default:
1104 _ptr--;
1105 return(false);
1106 }
1107 break;
1108
1109 case 'R':
1110 _ptr++;
1111 switch(*_ptr)
1112 {
1113 case 'a':
1114 element = 88;
1115 strcpy(symbol,"Ra");
1116 break;
1117 case 'b':
1118 element = 37;
1119 strcpy(symbol,"Rb");
1120 break;
1121 case 'e':
1122 element = 75;
1123 strcpy(symbol,"Re");
1124 break;
1125 case 'h':
1126 element = 45;
1127 strcpy(symbol,"Rh");
1128 break;
1129 case 'n':
1130 element = 86;
1131 strcpy(symbol,"Rn");
1132 break;
1133 case 'u':
1134 element = 44;
1135 strcpy(symbol,"Ru");
1136 break;
1137 default:
1138 _ptr--;
1139 return(false);
1140 }
1141 break;
1142
1143 case 'T':
1144 _ptr++;
1145 switch(*_ptr)
1146 {
1147 case 'a':
1148 element = 73;
1149 strcpy(symbol,"Ta");
1150 break;
1151 case 'b':
1152 element = 65;
1153 strcpy(symbol,"Tb");
1154 break;
1155 case 'c':
1156 element = 43;
1157 strcpy(symbol,"Tc");
1158 break;
1159 case 'e':
1160 element = 52;
1161 strcpy(symbol,"Te");
1162 break;
1163 case 'h':
1164 element = 90;
1165 strcpy(symbol,"Th");
1166 break;
1167 case 'i':
1168 element = 22;
1169 strcpy(symbol,"Ti");
1170 break;
1171 case 'l':
1172 element = 81;
1173 strcpy(symbol,"Tl");
1174 break;
1175 case 'm':
1176 element = 69;
1177 strcpy(symbol,"Tm");
1178 break;
1179 default:
1180 _ptr--;
1181 return(false);
1182 }
1183 break;
1184
1185 case('U'): element = 92;
1186 symbol[0] = 'U';
1187 break;
1188 case('V'): element = 23;
1189 symbol[0] = 'V';
1190 break;
1191 case('W'): element = 74;
1192 symbol[0] = 'W';
1193 break;
1194
1195 case('X'):
1196 _ptr++;
1197 if (*_ptr == 'e')
1198 {
1199 element = 54;
1200 strcpy(symbol,"Xe");
1201 }
1202 else
1203 {
1204 _ptr--;
1205 return(false);
1206 }
1207 break;
1208
1209 case('Y'):
1210 _ptr++;
1211 if (*_ptr == 'b')
1212 {
1213 element = 70;
1214 strcpy(symbol,"Yb");
1215 }
1216 else
1217 {
1218 element = 39;
1219 symbol[0] = 'Y';
1220 _ptr--;
1221 }
1222 break;
1223
1224 case('Z'):
1225 _ptr++;
1226 switch(*_ptr)
1227 {
1228 case 'n':
1229 element = 30;
1230 strcpy(symbol,"Zn");
1231 break;
1232 case 'r':
1233 element = 40;
1234 strcpy(symbol,"Zr");
1235 break;
1236 default:
1237 _ptr--;
1238 return(false);
1239 }
1240 break;
1241 }
1242 else
1243 {
1244 arom = true;
1245 switch(*_ptr)
1246 {
1247 case 'c':
1248 element = 6;
1249 symbol[0] = 'C';
1250 break;
1251 case 'n':
1252 element = 7;
1253 symbol[0] = 'N';
1254 break;
1255 case 'o':
1256 element = 8;
1257 symbol[0] = 'O';
1258 break;
1259 case 'p':
1260 element = 15;
1261 symbol[0] = 'P';
1262 break;
1263 case 's':
1264 _ptr++;
1265 if (*_ptr == 'e')
1266 {
1267 element = 34;
1268 strcpy(symbol,"Se");
1269 }
1270 else
1271 {
1272 element = 16;
1273 symbol[0] = 'S';
1274 _ptr--;
1275 }
1276 break;
1277 case 'a':
1278 _ptr++;
1279 if (*_ptr == 's')
1280 {
1281 element = 33;
1282 strcpy(symbol,"As");
1283 }
1284 else
1285 return(false);
1286 break;
1287 default:
1288 return(false);
1289 }
1290 }
1291
1292 //handle hydrogen count, stereochemistry, and charge
1293
1294 OBAtom *atom = mol.NewAtom();
1295 int hcount = 0;
1296 int charge=0;
1297 int rad=0;
1298 char tmpc[2];
1299 tmpc[1] = '\0';
1300 for (_ptr++;*_ptr && *_ptr != ']';_ptr++)
1301 {
1302 switch(*_ptr)
1303 {
1304 case '@':
1305 _ptr++;
1306 chiralWatch=true;
1307 _mapcd[atom]= new OBChiralData;
1308 if (*_ptr == '@')
1309 atom->SetClockwiseStereo();
1310 else
1311 {
1312 atom->SetAntiClockwiseStereo();
1313 _ptr--;
1314 }
1315 break;
1316 case '-':
1317 _ptr++;
1318 if (isdigit(*_ptr))
1319 {
1320 tmpc[0] = *_ptr;
1321 charge = -atoi(tmpc);
1322 }
1323 else
1324 {
1325 charge--;
1326 _ptr--;
1327 }
1328 break;
1329 case '+':
1330 _ptr++;
1331 if (isdigit(*_ptr))
1332 {
1333 tmpc[0] = *_ptr;
1334 charge = atoi(tmpc);
1335 }
1336 else
1337 {
1338 charge++;
1339 _ptr--;
1340 }
1341 break;
1342
1343 case 'H':
1344 _ptr++;
1345 if (isdigit(*_ptr))
1346 {
1347 tmpc[0] = *_ptr;
1348 hcount = atoi(tmpc);
1349 }
1350 else
1351 {
1352 hcount = 1;
1353 _ptr--;
1354 }
1355 break;
1356 case '.': //CM Feb05
1357 rad=2;
1358 if(*(++_ptr)=='.')
1359 rad=3;
1360 else
1361 _ptr--;
1362 break;
1363
1364 default:
1365 return(false);
1366 }
1367 }
1368
1369 if (charge)
1370 atom->SetFormalCharge(charge);
1371 if (rad)
1372 atom->SetSpinMultiplicity(rad);
1373 atom->SetAtomicNum(element);
1374 atom->SetIsotope(isotope);
1375 atom->SetType(symbol);
1376 if (arom)
1377 atom->SetAromatic();
1378
1379 if (_prev) //need to add bond
1380 {
1381 mol.AddBond(_prev,mol.NumAtoms(),_order,_bondflags);
1382 if(chiralWatch) // if chiral atom need to add its previous into atom4ref
1383 {
1384 if (_mapcd[atom] == NULL)
1385 _mapcd[atom]= new OBChiralData;
1386
1387 (_mapcd[atom])->AddAtomRef((unsigned int)_prev,input);
1388 // cout <<"line 1405: Added atom ref "<<_prev<<" to "<<_mapcd[atom]<<endl;
1389 }
1390 map<OBAtom*,OBChiralData*>::iterator ChiralSearch;
1391 ChiralSearch = _mapcd.find(mol.GetAtom(_prev));
1392 if (ChiralSearch!=_mapcd.end() && ChiralSearch->second != NULL)
1393 {
1394 (ChiralSearch->second)->AddAtomRef(mol.NumAtoms(), input);
1395 // cout <<"line 1431: Added atom ref "<<mol.NumAtoms()<<" to "<<ChiralSearch->second<<endl;
1396 }
1397 }
1398
1399 //set values
1400 _prev = mol.NumAtoms();
1401 _order = 1;
1402 _bondflags = 0;
1403
1404 //now add hydrogens
1405
1406 for (int i = 0;i < hcount;i++)
1407 {
1408 atom = mol.NewAtom();
1409 atom->SetAtomicNum(1);
1410 atom->SetType("H");
1411 mol.AddBond(_prev,mol.NumAtoms(),1);
1412 if(chiralWatch)
1413 {
1414 if (_mapcd[mol.GetAtom(_prev)] != NULL)
1415 (_mapcd[mol.GetAtom(_prev)])->AddAtomRef(mol.NumAtoms(),input);
1416 // cout << "line 1434: Added atom ref "<<mol.NumAtoms()<<" to "<<_mapcd[mol.GetAtom(_prev)]<<endl;
1417
1418 }
1419 }
1420 chiralWatch=false;
1421 return(true);
1422 }
1423
1424 bool OBSmilesParser::CapExternalBonds(OBMol &mol)
1425 {
1426
1427 if(_extbond.empty())
1428 return(true);
1429
1430 OBAtom *atom;
1431 vector<vector<int> >::iterator bond;
1432
1433 for(bond = _extbond.begin();bond != _extbond.end();bond++)
1434 {
1435 // create new dummy atom
1436 atom = mol.NewAtom();
1437 atom->SetAtomicNum(0);
1438 atom->SetType("*");
1439
1440 // bond dummy atom to mol via external bond
1441 mol.AddBond((*bond)[1],atom->GetIdx(),(*bond)[2],(*bond)[3]);
1442 OBBond *refbond = atom->GetBond(mol.GetAtom((*bond)[1]));
1443
1444 //record external bond information
1445 OBExternalBondData *xbd;
1446 if(mol.HasData(OBGenericDataType::ExternalBondData))
1447 xbd = (OBExternalBondData*)mol.GetData(OBGenericDataType::ExternalBondData);
1448 else
1449 {
1450 xbd = new OBExternalBondData;
1451 mol.SetData(xbd);
1452 }
1453 xbd->SetData(atom,refbond,(*bond)[0]);
1454
1455 /* old code written by AGS -- mts
1456 {
1457 externalbonds = (vector<pair<int,pair<OBAtom *,OBBond *> > > *)mol.GetData("extBonds");
1458 }
1459 else
1460 {
1461 externalbonds = new vector<pair<int,pair<OBAtom *,OBBond *> > >;
1462 }
1463
1464 //save data <external bond count, bond index>
1465 externalbonds->push_back(pair<int,pair<OBAtom *,OBBond *> > ((*bond)[0], pair<OBAtom *,OBBond *> (atom,mol.GetBond((*bond)[1],atom->GetIdx()))));
1466 mol.SetData("extBonds",externalbonds);
1467 */
1468
1469 //this data gets cleaned up in mol.Clear.
1470 }
1471
1472 return(true);
1473 }
1474
1475 bool OBSmilesParser::ParseExternalBond(OBMol &mol)
1476 {
1477 int digit;
1478 char str[10];
1479
1480 //*_ptr should == '&'
1481 _ptr++;
1482
1483 switch (*_ptr) // check for bond order indicators CC&=1.C&1
1484 {
1485 case '-':
1486 _order = 1;
1487 _ptr++;
1488 break;
1489 case '=':
1490 _order = 2;
1491 _ptr++;
1492 break;
1493 case '#':
1494 _order = 3;
1495 _ptr++;
1496 break;
1497 case ';':
1498 _order = 5;
1499 _ptr++;
1500 break;
1501 case '/': //chiral, but _order still == 1
1502 _bondflags |= OB_TORDOWN_BOND;
1503 _ptr++;
1504 break;
1505 _ptr++;
1506 case '\\': // chiral, but _order still == 1
1507 _bondflags |= OB_TORUP_BOND;
1508 _ptr++;
1509 break;
1510 default: // no bond indicator just leave order = 1
1511 break;
1512 }
1513
1514 if (*_ptr == '%') // external bond indicator > 10
1515 {
1516 _ptr++;
1517 str[0] = *_ptr;
1518 _ptr++;
1519 str[1] = *_ptr;
1520 str[2] = '\0';
1521 }
1522 else // simple single digit external bond indicator
1523 {
1524 str[0] = *_ptr;
1525 str[1] = '\0';
1526 }
1527 digit = atoi(str); // convert indicator to digit
1528
1529 //check for dot disconnect closures
1530 vector<vector<int> >::iterator j;
1531 int bondFlags,bondOrder;
1532 for(j = _extbond.begin();j != _extbond.end();j++)
1533 {
1534 if((*j)[0] == digit)
1535 {
1536 bondFlags = (_bondflags > (*j)[3]) ? _bondflags : (*j)[3];
1537 bondOrder = (_order > (*j)[2]) ? _order : (*j)[2];
1538 mol.AddBond((*j)[1],_prev,bondOrder,bondFlags);
1539
1540 // after adding a bond to atom "_prev"
1541 // search to see if atom is bonded to a chiral atom
1542 map<OBAtom*,OBChiralData*>::iterator ChiralSearch;
1543 ChiralSearch = _mapcd.find(mol.GetAtom(_prev));
1544 if (ChiralSearch!=_mapcd.end() && ChiralSearch->second != NULL)
1545 {
1546 (ChiralSearch->second)->AddAtomRef((*j)[1], input);
1547 // cout << "Added external "<<(*j)[1]<<" to "<<ChiralSearch->second<<endl;
1548 }
1549
1550 _extbond.erase(j);
1551 _bondflags = 0;
1552 _order = 0;
1553 return(true);
1554 }
1555 }
1556
1557 //since no closures save another ext bond
1558 vector<int> vtmp(4);
1559 vtmp[0] = digit;
1560 vtmp[1] = _prev;
1561 vtmp[2] = _order;
1562 vtmp[3] = _bondflags;
1563
1564 _extbond.push_back(vtmp);
1565 _order = 1;
1566 _bondflags = 0;
1567
1568 return(true);
1569
1570 }
1571
1572 bool OBSmilesParser::ParseRingBond(OBMol &mol)
1573 {
1574 int digit;
1575 char str[10];
1576
1577 if (*_ptr == '%')
1578 {
1579 _ptr++;
1580 str[0] = *_ptr;
1581 _ptr++;
1582 str[1] = *_ptr;
1583 str[2] = '\0';
1584 }
1585 else
1586 {
1587 str[0] = *_ptr;
1588 str[1] = '\0';
1589 }
1590 digit = atoi(str);
1591
1592 int bf,ord;
1593 vector<vector<int> >::iterator j;
1594 for (j = _rclose.begin();j != _rclose.end();j++)
1595 if ((*j)[0] == digit)
1596 {
1597 bf = (_bondflags > (*j)[3]) ? _bondflags : (*j)[3];
1598 ord = (_order > (*j)[2]) ? _order : (*j)[2];
1599 mol.AddBond((*j)[1],_prev,ord,bf,(*j)[4]);
1600
1601 // after adding a bond to atom "_prev"
1602 // search to see if atom is bonded to a chiral atom
1603 // need to check both _prev and (*j)[1] as closure is direction independant
1604 map<OBAtom*,OBChiralData*>::iterator ChiralSearch,cs2;
1605 ChiralSearch = _mapcd.find(mol.GetAtom(_prev));
1606 cs2=_mapcd.find(mol.GetAtom((*j)[1]));
1607 if (ChiralSearch!=_mapcd.end() && ChiralSearch->second != NULL)
1608 {
1609 (ChiralSearch->second)->AddAtomRef((*j)[1], input);
1610 //cout << "Added ring closure "<<(*j)[1]<<" to "<<ChiralSearch->second<<endl;
1611 }
1612 if (cs2!=_mapcd.end() && cs2->second != NULL)
1613 {
1614 (cs2->second)->AddAtomRef(_prev,input);
1615 // cout <<"Added ring opening "<<_prev<<" to "<<cs2->second<<endl;
1616 }
1617
1618 //CM ensure neither atoms in ring closure is a radical centre
1619 OBAtom* patom = mol.GetAtom(_prev);
1620 patom->SetSpinMultiplicity(0);
1621 patom = mol.GetAtom((*j)[1]);
1622 patom->SetSpinMultiplicity(0);
1623 //CM end
1624 _rclose.erase(j);
1625 _bondflags = 0;
1626 _order = 1;
1627 return(true);
1628 }
1629
1630 vector<int> vtmp(5);
1631 vtmp[0] = digit;
1632 vtmp[1] = _prev;
1633 vtmp[2] = _order;
1634 vtmp[3] = _bondflags;
1635 vtmp[4] = mol.GetAtom(_prev)->GetValence(); //store position to insert closure bond
1636 for (j = _rclose.begin();j != _rclose.end();j++) //correct for multiple closure bonds to a single atom
1637 if ((*j)[1] == _prev)
1638 vtmp[4]++;
1639
1640 _rclose.push_back(vtmp);
1641 _order = 1;
1642 _bondflags = 0;
1643
1644 return(true);
1645 }
1646
1647
1648 void OBMol2Smi::CreateSmiString(OBMol &mol,char *buffer)
1649 {
1650 OBAtom *atom;
1651 OBSmiNode *root =NULL;
1652 buffer[0] = '\0';
1653 vector<OBNodeBase*>::iterator i;
1654
1655 for (atom = mol.BeginAtom(i);atom;atom = mol.NextAtom(i))
1656 // if ((!atom->IsHydrogen() || atom->GetValence() == 0) && !_uatoms[atom->GetIdx()])
1657 if (!atom->IsHydrogen() && !_uatoms[atom->GetIdx()])
1658 if (!atom->IsChiral()) //don't use chiral atoms as root node
1659 {
1660 //clear out closures in case structure is dot disconnected
1661 _vclose.clear();
1662 _atmorder.clear();
1663 _storder.clear();
1664 _vopen.clear();
1665 //dot disconnected structure
1666 if (strlen(buffer) > 0)
1667 strcat(buffer,".");
1668 root = new OBSmiNode (atom);
1669 BuildTree(root);
1670 FindClosureBonds(mol);
1671 if (mol.Has2D())
1672 AssignCisTrans(root);
1673 ToSmilesString(root,buffer);
1674 delete root;
1675 }
1676
1677 //If no starting node found e.g. [H][H] CM 21Mar05
1678 if(root==NULL)
1679 {
1680 root = new OBSmiNode(mol.GetFirstAtom());
1681 BuildTree(root);
1682 ToSmilesString(root,buffer);
1683 delete root;
1684 }
1685 }
1686
1687 bool OBMol2Smi::BuildTree(OBSmiNode *node)
1688 {
1689 vector<OBEdgeBase*>::iterator i;
1690 OBAtom *nbr,*atom = node->GetAtom();
1691
1692 _uatoms.SetBitOn(atom->GetIdx()); //mark the atom as visited
1693 _atmorder.push_back(atom->GetIdx()); //store the atom ordering
1694 _storder.push_back(atom->GetIdx()); //store the atom ordering for stereo
1695
1696 for (nbr = atom->BeginNbrAtom(i);nbr;nbr = atom->NextNbrAtom(i))
1697 if ((!nbr->IsHydrogen()||nbr->GetIsotope()||atom->IsHydrogen()) //so D,T is explicit and H2 works!CM 21Mar05
1698 && !_uatoms[nbr->GetIdx()])
1699 {
1700 _ubonds.SetBitOn((*i)->GetIdx());
1701 OBSmiNode *next = new OBSmiNode (nbr);
1702 next->SetParent(atom);
1703 node->SetNextNode(next,(OBBond*)*i);
1704 BuildTree(next);
1705 }
1706
1707 return(true);
1708 }
1709
1710 void OBMol2Smi::ToSmilesString(OBSmiNode *node,char *buffer)
1711 {
1712 char tmpbuf[10];
1713 OBAtom *atom = node->GetAtom();
1714
1715 //write the current atom to the string
1716 GetSmilesElement(node,tmpbuf);
1717 strcat(buffer,tmpbuf);
1718
1719 //handle ring closures here
1720 vector<pair<int,OBBond*> > vc = GetClosureDigits(atom);
1721 if (!vc.empty())
1722 {
1723 vector<pair<int,OBBond*> >::iterator i;
1724 for (i = vc.begin();i != vc.end();i++)
1725 {
1726 if (i->second)
1727 {
1728 if (i->second->IsUp())
1729 {
1730 if ( (i->second->GetBeginAtom())->HasDoubleBond() ||
1731 (i->second->GetEndAtom())->HasDoubleBond() )
1732 strcat(buffer,"\\");
1733 }
1734 if (i->second->IsDown())
1735 {
1736 if ( (i->second->GetBeginAtom())->HasDoubleBond() ||
1737 (i->second->GetEndAtom())->HasDoubleBond() )
1738 strcat(buffer,"/");
1739 }
1740 #ifndef KEKULE
1741
1742 if (i->second->GetBO() == 2 && !i->second->IsAromatic())
1743 strcat(buffer,"=");
1744 #else
1745
1746 if (i->second->GetBO() == 2)
1747 strcat(buffer,"=");
1748 #endif
1749
1750 if (i->second->GetBO() == 3)
1751 strcat(buffer,"#");
1752 }
1753
1754 if (i->first > 9)
1755 strcat(buffer,"%");
1756 sprintf(tmpbuf,"%d",i->first);
1757 strcat(buffer,tmpbuf);
1758 }
1759 }
1760
1761 //follow path to child atoms
1762 OBBond *bond;
1763 for (int i = 0;i < node->Size();i++)
1764 {
1765 bond = node->GetNextBond(i);
1766 if (i+1 < node->Size())
1767 strcat(buffer,"(");
1768 if (bond->IsUp())
1769 {
1770 if ( (bond->GetBeginAtom())->HasDoubleBond() ||
1771 (bond->GetEndAtom())->HasDoubleBond() )
1772 strcat(buffer,"\\");
1773 }
1774 if (bond->IsDown())
1775 {
1776 if ( (bond->GetBeginAtom())->HasDoubleBond() ||
1777 (bond->GetEndAtom())->HasDoubleBond() )
1778 strcat(buffer,"/");
1779 }
1780 #ifndef KEKULE
1781
1782 if (bond->GetBO() == 2 && !bond->IsAromatic())
1783 strcat(buffer,"=");
1784 #else
1785
1786 if (bond->GetBO() == 2)
1787 strcat(buffer,"=");
1788 #endif
1789
1790 if (bond->GetBO() == 3)
1791 strcat(buffer,"#");
1792
1793 ToSmilesString(node->GetNextNode(i),buffer);
1794 if (i+1 < node->Size())
1795 strcat(buffer,")");
1796 }
1797 }
1798
1799 void OBMol2Smi::GetClosureAtoms(OBAtom *atom,vector<OBNodeBase*> &va)
1800 {
1801
1802 //look through closure list for start atom
1803 vector<OBEdgeBase*>::iterator i;
1804 for (i = _vclose.begin();i != _vclose.end();i++)
1805 if (*i)
1806 {
1807 if (((OBBond*)*i)->GetBeginAtom() == atom)
1808 va.push_back(((OBBond*)*i)->GetEndAtom());
1809 if (((OBBond*)*i)->GetEndAtom() == atom)
1810 va.push_back(((OBBond*)*i)->GetBeginAtom());
1811 }
1812
1813 OBAtom *nbr;
1814 vector<pair<OBAtom*,pair<int,int> > >::iterator j;
1815 for (j = _vopen.begin();j != _vopen.end();j++)
1816 for (nbr = atom->BeginNbrAtom(i);nbr;nbr = atom->NextNbrAtom(i))
1817 if (nbr == j->first)
1818 va.push_back(nbr);
1819 }
1820
1821 vector<pair<int,OBBond*> > OBMol2Smi::GetClosureDigits(OBAtom *atom)
1822 {
1823 vector<pair<int,OBBond*> > vc;
1824 vc.clear();
1825
1826 //look through closure list for start atom
1827 int idx,bo;
1828 OBBond *bond;
1829 vector<OBEdgeBase*>::iterator i;
1830 for (i = _vclose.begin();i != _vclose.end();i++)
1831 if ((bond=(OBBond*)*i))
1832 if (bond->GetBeginAtom() == atom || bond->GetEndAtom() == atom)
1833 {
1834 idx = GetUnusedIndex();
1835 vc.push_back(pair<int,OBBond*> (idx,bond));
1836 bo = (bond->IsAromatic())? 1 : bond->GetBO();
1837 _vopen.push_back(pair<OBAtom*,pair<int,int> >
1838 (bond->GetNbrAtom(atom),pair<int,int>(idx,bo)));
1839 *i = NULL;//remove bond from closure list
1840 }
1841
1842 //try to complete closures
1843 if (!_vopen.empty())
1844 {
1845 vector<pair<OBAtom*,pair<int,int> > >::iterator j;
1846 for (j = _vopen.begin();j != _vopen.end();)
1847 if (j->first == atom)
1848 {
1849 vc.push_back(pair<int,OBBond*> (j->second.first,(OBBond*)NULL));
1850 _vopen.erase(j);
1851 j = _vopen.begin();
1852 }
1853 else
1854 j++;
1855 }
1856
1857 return(vc);
1858 }
1859
1860 void OBMol2Smi::FindClosureBonds(OBMol &mol)
1861 {
1862 //find closure bonds
1863 OBAtom *a1,*a2;
1864 OBBond *bond;
1865 vector<OBEdgeBase*>::iterator i;
1866 OBBitVec bv;
1867 bv.FromVecInt(_storder);
1868
1869 for (bond = mol.BeginBond(i);bond;bond = mol.NextBond(i))
1870 if (!_ubonds[bond->GetIdx()] && bv[bond->GetBeginAtomIdx()])
1871 {
1872 a1 = bond->GetBeginAtom();
1873 a2 = bond->GetEndAtom();
1874 if (!a1->IsHydrogen() && !a2->IsHydrogen())
1875 _vclose.push_back(bond);
1876 }
1877
1878 vector<OBEdgeBase*>::reverse_iterator j;
1879 vector<int>::iterator k;
1880
1881 //modify _order to reflect ring closures
1882 for (j = _vclose.rbegin();j != _vclose.rend();j++)
1883 {
1884 bond = (OBBond*)*j;
1885 a1 = a2 = NULL;
1886
1887 for (k = _storder.begin();k != _storder.end();k++)
1888 if (bond->GetBeginAtomIdx() == static_cast<unsigned int>(*k) ||
1889 bond->
1890 GetEndAtomIdx() == static_cast<unsigned int>(*k))
1891 if (!a1) a1 = mol.GetAtom(*k);
1892 else if (!a2)
1893 {
1894 a2 = mol.GetAtom(*k)
1895 ;
1896 _storder.erase(k);
1897 break;
1898 }
1899
1900 for (k = _storder.begin()
1901 ;
1902 k != _storder.end();
1903 k++)
1904 if (a1->GetIdx()
1905 == static_cast<unsigned int>(*k))
1906 {
1907 k++;
1908 if (k != _storder.end())
1909 _storder.insert(k,a2->GetIdx());
1910 else
1911 _storder.push_back(a2->GetIdx());
1912 break;
1913 }
1914 }
1915 }
1916
1917 int OBMol2Smi::GetUnusedIndex()
1918 {
1919 int idx=1;
1920
1921 vector<pair<OBAtom*,pair<int,int> > >::iterator j;
1922 for (j = _vopen.begin();j != _vopen.end();)
1923 if (j->second.first == idx)
1924 {
1925 idx++; //increment idx and start over if digit is already used
1926 j = _vopen.begin();
1927 }
1928 else
1929 j++;
1930
1931 return(idx);
1932 }
1933
1934 void OBMol2Smi::CorrectAromaticAmineCharge(OBMol &mol)
1935 {
1936 OBAtom *atom;
1937 vector<OBNodeBase*>::iterator i;
1938
1939 _aromNH.clear();
1940 _aromNH.resize(mol.NumAtoms()+1);
1941
1942 for (atom = mol.BeginAtom(i);atom;atom = mol.NextAtom(i))
1943 if (atom->IsNitrogen() && atom->IsAromatic())
1944 if (atom->GetHvyValence() == 2)
1945 {
1946 if (atom->GetValence() == 3 || atom->GetImplicitValence() == 3)
1947 _aromNH[atom->GetIdx()] = true;
1948 }
1949 }
1950
1951 void OBMol2Smi::AssignCisTrans(OBSmiNode *node)
1952 {
1953 //traverse the tree searching for acyclic olefins - if it
1954 //has at least one heavy atom attachment on each end assign stereochem
1955
1956 OBBond *bond;
1957 for (int i = 0;i < node->Size();i++)
1958 {
1959 bond = node->GetNextBond(i);
1960 if (bond->GetBO() == 2 && !bond->IsInRing())
1961 {
1962 OBAtom *b = node->GetAtom();
1963 OBAtom *c = bond->GetNbrAtom(b);
1964
1965 //skip allenes
1966 if (b->GetHyb() == 1 || c->GetHyb() == 1)
1967 continue;
1968
1969 if (b->GetHvyValence() > 1 && c->GetHvyValence() > 1)
1970 {
1971 OBAtom *a,*d;
1972 vector<OBEdgeBase*>::iterator j,k;
1973
1974 //look for bond with assigned stereo as in poly-ene
1975 for (a = b->BeginNbrAtom(j);a;a = b->NextNbrAtom(j))
1976 if (((OBBond*)*j)->IsUp() ||((OBBond*)*j)->IsDown())
1977 break;
1978
1979 if (!a)
1980 for (a = b->BeginNbrAtom(j);a;a = b->NextNbrAtom(j))
1981 if (a != c && !a->IsHydrogen())
1982 break;
1983 for (d = c->BeginNbrAtom(k);d;d = c->NextNbrAtom(k))
1984 if (d != b && !d->IsHydrogen())
1985 break;
1986 // obAssert(a);
1987 // obAssert(d);
1988
1989 if (((OBBond*)*j)->IsUp() || ((OBBond*)*j)->IsDown()) //stereo already assigned
1990 {
1991 if (fabs(CalcTorsionAngle(a->GetVector(),b->GetVector(),
1992 c->GetVector(),d->GetVector())) > 10.0)
1993 if (((OBBond*)*j)->IsUp())
1994 ((OBBond*)*k)->SetUp();
1995 else
1996 ((OBBond*)*k)->SetDown();
1997 else
1998 if (((OBBond*)*j)->IsUp())
1999 ((OBBond*)*k)->SetDown();
2000 else
2001 ((OBBond*)*k)->SetUp();
2002 }
2003 else //assign stereo to both ends
2004 {
2005 ((OBBond*)*j)->SetUp();
2006 if (fabs(CalcTorsionAngle(a->GetVector(),b->GetVector(),
2007 c->GetVector(),d->GetVector())) > 10.0)
2008 ((OBBond*)*k)->SetUp();
2009 else
2010 ((OBBond*)*k)->SetDown();
2011 }
2012 }
2013 }
2014 AssignCisTrans(node->GetNextNode(i));
2015 }
2016 }
2017
2018 void OBMol2Smi::Init(OBConversion* pconv)
2019 {
2020 _vclose.clear();
2021 _atmorder.clear();
2022 _storder.clear();
2023 _aromNH.clear();
2024 _uatoms.Clear();
2025 _ubonds.Clear();
2026 _vopen.clear();
2027 _pconv = pconv;
2028 }
2029
2030 bool OBMol2Smi::GetSmilesElement(OBSmiNode *node,char *element)
2031 {
2032 //***handle reference atom stuff here and return***
2033 char symbol[10];
2034 bool bracketElement = false;
2035 bool normalValence = true;
2036
2037 OBAtom *atom = node->GetAtom();
2038
2039 int bosum = atom->KBOSum();
2040 atom->BOSum(); //CM temp
2041 switch (atom->GetAtomicNum())
2042 {
2043 case 0:
2044 break;
2045 case 5: /*bracketElement = !(normalValence = (bosum == 3)); break;*/
2046 break;
2047 case 6:
2048 break;
2049 case 7:
2050 if (atom->IsAromatic() && atom->GetHvyValence() == 2 && atom->GetImplicitValence() == 3)
2051 {
2052 normalValence = false;
2053 bracketElement = !(normalValence);
2054 break;
2055 }
2056 else
2057 bracketElement = !(normalValence = (bosum == 3 || bosum == 5));
2058 break;
2059 case 8:
2060 break;
2061 case 9:
2062 break;
2063 case 15:
2064 break;
2065 case 16:
2066 bracketElement = !(normalValence = (bosum == 2 || bosum == 4 || bosum == 6));
2067 break;
2068 case 17:
2069 break;
2070 case 35:
2071 break;
2072 case 53:
2073 break;
2074
2075 default:
2076 bracketElement = true;
2077 }
2078
2079 if (atom->GetHvyValence() > 2 && atom->IsChiral())
2080 if (((OBMol*)atom->GetParent())->HasNonZeroCoords() || atom->HasChiralitySpecified())
2081 bracketElement = true;
2082
2083 if (atom->GetFormalCharge() != 0) //bracket charged elements
2084 bracketElement = true;
2085
2086 if(atom->GetIsotope()) //CM 19Mar05
2087 bracketElement = true;
2088
2089 //CM begin 18 Sept 2003
2090
2091 //This outputs form [CH3][CH3] rather than CC if -h option has been specified
2092 if (((OBMol*)atom->GetParent())->HasHydrogensAdded())
2093 bracketElement = true;
2094 else
2095 {
2096 if (atom->GetSpinMultiplicity())
2097 {
2098 //For radicals output bracket form anyway unless r option specified
2099 if(!(_pconv && _pconv->IsOption ("r")))
2100 bracketElement = true;
2101 }
2102 }
2103 //CM end
2104
2105 if (!bracketElement)
2106 {
2107 if (!atom->GetAtomicNum())
2108 {
2109 bool external = false;
2110 vector<pair<int,pair<OBAtom *,OBBond *> > > *externalBonds =
2111 (vector<pair<int,pair<OBAtom *,OBBond *> > > *)((OBMol*)atom->GetParent())->GetData("extBonds");
2112 vector<pair<int,pair<OBAtom *,OBBond *> > >::iterator externalBond;
2113
2114 if (externalBonds)
2115 for(externalBond = externalBonds->begin();externalBond != externalBonds->end();externalBond++)
2116 {
2117 if (externalBond->second.first == atom)
2118 {
2119 external = true;
2120 strcpy(symbol,"&");
2121 OBBond *bond = externalBond->second.second;
2122 if (bond->IsUp())
2123 {
2124 if ( (bond->GetBeginAtom())->HasDoubleBond() ||
2125 (bond->GetEndAtom())->HasDoubleBond() )
2126 strcat(symbol,"\\");
2127 }
2128 if (bond->IsDown())
2129 {
2130 if ( (bond->GetBeginAtom())->HasDoubleBond() ||
2131 (bond->GetEndAtom())->HasDoubleBond() )
2132 strcat(symbol,"/");
2133 }
2134 #ifndef KEKULE
2135
2136 if (bond->GetBO() == 2 && !bond->IsAromatic())
2137 strcat(symbol,"=");
2138 if (bond->GetBO() == 2 && bond->IsAromatic())
2139 strcat(symbol,";");
2140 #else
2141
2142 if (bond->GetBO() == 2)
2143 strcat(symbol,"=");
2144 #endif
2145
2146 if (bond->GetBO() == 3)
2147 strcat(symbol,"#");
2148 sprintf(symbol,"%s%d",symbol,externalBond->first);
2149 break;
2150 }
2151 }
2152
2153 if(!external)
2154 strcpy(symbol,"*");
2155 }
2156 else
2157 {
2158 strcpy(symbol,etab.GetSymbol(atom->GetAtomicNum()));
2159 #ifndef KEKULE
2160
2161 if (atom->IsAromatic())
2162 symbol[0] = tolower(symbol[0]);
2163 #endif
2164
2165 //Radical centres lc if r option set
2166 if(atom->GetSpinMultiplicity() && _pconv && _pconv->IsOption ("r"))
2167 symbol[0] = tolower(symbol[0]);
2168 }
2169 strcpy(element,symbol);
2170
2171 return(true);
2172 }
2173
2174 strcpy(element,"[");
2175 if(atom->GetIsotope()) //CM 19Mar05
2176 {
2177 char iso[4];
2178 sprintf(iso,"%d",atom->GetIsotope());
2179 strcat(element,iso);
2180 }
2181 if (!atom->GetAtomicNum())
2182 strcpy(symbol,"*");
2183 else
2184 {
2185 strcpy(symbol,etab.GetSymbol(atom->GetAtomicNum()));
2186 #ifndef KEKULE
2187
2188 if (atom->IsAromatic())
2189 symbol[0] = tolower(symbol[0]);
2190 #endif
2191
2192 }
2193 strcat(element,symbol);
2194
2195 //if (atom->IsCarbon() && atom->GetHvyValence() > 2 && atom->IsChiral())
2196 if (atom->GetHvyValence() > 2 && atom->IsChiral())
2197 {
2198 char stereo[5];
2199 if (GetChiralStereo(node,stereo))
2200 strcat(element,stereo);
2201 }
2202
2203 //add extra hydrogens
2204 // if (!normalValence && atom->ImplicitHydrogenCount())
2205 if (atom->ImplicitHydrogenCount() && !atom->IsHydrogen()) //CM 21Mar05
2206 {
2207 strcat(element,"H");
2208 if (atom->ImplicitHydrogenCount() > 1)
2209 {
2210 char tcount[10];
2211 sprintf(tcount,"%d",atom->ImplicitHydrogenCount());
2212 strcat(element,tcount);
2213 }
2214 }
2215
2216 //cat charge on the end
2217 if (atom->GetFormalCharge() != 0)
2218 {
2219
2220 /*
2221 if (atom->ImplicitHydrogenCount())
2222 {
2223 cerr << "imp = " << atom->GetAtomicNum() << ' ' << atom->GetImplicitValence() << endl;
2224 strcat(element,"H");
2225 if (atom->ImplicitHydrogenCount() > 1)
2226 {
2227 char tcount[10];
2228 sprintf(tcount,"%d",atom->ImplicitHydrogenCount());
2229 strcat(element,tcount);
2230 }
2231 }
2232 */
2233 if (atom->GetFormalCharge() > 0)
2234 strcat(element,"+");
2235 else
2236 strcat(element,"-");
2237
2238 if (abs(atom->GetFormalCharge()) > 1)
2239 {
2240 char tcharge[10];
2241 sprintf(tcharge,"%d",abs(atom->GetFormalCharge()));
2242 strcat(element,tcharge);
2243 }
2244 }
2245
2246 strcat(element,"]");
2247
2248 return(true);
2249 }
2250
2251 bool OBMol2Smi::GetChiralStereo(OBSmiNode *node,char *stereo)
2252 {
2253 bool is2D=false;
2254 double torsion;
2255 OBAtom *a,*b,*c,*d,hydrogen;
2256
2257 b = node->GetAtom();
2258 OBMol *mol = (OBMol*)b->GetParent();
2259
2260 if (!mol->HasNonZeroCoords()) //must have come in from smiles string
2261 {
2262 if (!b->HasChiralitySpecified())
2263 return(false);
2264 if (b->IsClockwise())
2265 strcpy(stereo,"@@");
2266 else if (b->IsAntiClockwise())
2267 strcpy(stereo,"@");
2268 else
2269 return(false);
2270 //if (b->GetHvyValence() == 3) strcat(stereo,"H");
2271 return(true);
2272 }
2273
2274 //give peudo Z coords if mol is 2D
2275 if (!mol->Has3D())
2276 {
2277 vector3 v,vz(0.0,0.0,1.0);
2278 is2D = true;
2279 OBAtom *nbr;
2280 OBBond *bond;
2281 vector<OBEdgeBase*>::iterator i;
2282 for (bond = b->BeginBond(i);bond;bond = b->NextBond(i))
2283 {
2284 nbr = bond->GetEndAtom();
2285 if (nbr != b)
2286 {
2287 v = nbr->GetVector();
2288 if (bond->IsWedge())
2289 v += vz;
2290 else
2291 if (bond->IsHash())
2292 v -= vz;
2293
2294 nbr->SetVector(v);
2295 }
2296 else
2297 {
2298 nbr = bond->GetBeginAtom();
2299 v = nbr->GetVector();
2300 if (bond->IsWedge())
2301 v -= vz;
2302 else
2303 if (bond->IsHash())
2304 v += vz;
2305
2306 nbr->SetVector(v);
2307 }
2308 }
2309 }
2310
2311 c = d = NULL;
2312 a = node->GetParent();
2313 // obAssert(a); //chiral atom can't be used as root node - must have parent
2314
2315 if (b->GetHvyValence() == 3) //must have attached hydrogen
2316 {
2317 if (b->GetValence() == 4)//has explicit hydrogen
2318 {
2319 vector<OBEdgeBase*>::iterator i;
2320 for (c = b->BeginNbrAtom(i);c;c = b->NextNbrAtom(i))
2321 if (c->IsHydrogen())
2322 break;
2323 // obAssert(c);
2324 }
2325 else //implicit hydrogen
2326 {
2327 vector3 v;
2328 b->GetNewBondVector(v,1.0);
2329 hydrogen.SetVector(v);
2330 c = &hydrogen;
2331 }
2332 }
2333
2334 //get connected atoms in order
2335 OBAtom *nbr;
2336 vector<int>::iterator j;
2337
2338 //try to get neighbors that are closure atoms in the order they appear in the string
2339 vector<OBNodeBase*> va;
2340 GetClosureAtoms(b,va);
2341 if (!va.empty())
2342 {
2343 vector<OBNodeBase*>::iterator k;
2344 for (k = va.begin();k != va.end();k++)
2345 if (*k != a)
2346 {
2347 if (!c)
2348 c = (OBAtom*)*k;
2349 else if (!d)
2350 d = (OBAtom*)*k;
2351 }
2352 }
2353
2354 for (j = _storder.begin();j != _storder.end();j++)
2355 {
2356 nbr = mol->GetAtom(*j);
2357 if (!b->IsConnected(nbr))
2358 continue;
2359 if (nbr == a || nbr == b || nbr == c)
2360 continue;
2361 if (!c)
2362 c = nbr;
2363 else if (!d)
2364 d = nbr;
2365 }
2366
2367 torsion = CalcTorsionAngle(a->GetVector(),b->GetVector(),
2368 c->GetVector(),d->GetVector());
2369
2370 strcpy(stereo,(torsion<0.0)?"@":"@@");
2371 //if (b->GetHvyValence() == 3) strcat(stereo,"H");
2372
2373 //re-zero psuedo-coords
2374 if (is2D)
2375 {
2376 vector3 v;
2377 OBAtom *atom;
2378 vector<OBNodeBase*>::iterator k;
2379 for (atom = mol->BeginAtom(k);atom;atom = mol->NextAtom(k))
2380 {
2381 v = atom->GetVector();
2382 v.SetZ(0.0);
2383 atom->SetVector(v);
2384 }
2385 }
2386
2387 return(true);
2388 }
2389 //********************************************************
2390 class FIXFormat : public OBFormat
2391 {
2392 public:
2393 //Register this format type ID
2394 FIXFormat()
2395 {
2396 OBConversion::RegisterFormat("fix",this);
2397 }
2398
2399 virtual const char* Description() //required
2400 {
2401 return
2402 "SMILES FIX format\n \
2403 No comments yet\n \
2404 ";
2405 };
2406
2407 virtual const char* SpecificationURL(){return
2408 "";}; //optional
2409
2410 //Flags() can return be any the following combined by | or be omitted if none apply
2411 // NOTREADABLE READONEONLY NOTWRITABLE WRITEONEONLY
2412 virtual unsigned int Flags()
2413 {
2414 return NOTREADABLE;
2415 };
2416
2417 ////////////////////////////////////////////////////
2418 /// The "API" interface functions
2419 virtual bool WriteMolecule(OBBase* pOb, OBConversion* pConv);
2420
2421 ////////////////////////////////////////////////////
2422 /// The "Convert" interface functions
2423 virtual bool WriteChemObject(OBConversion* pConv)
2424 {
2425 //Retrieve the target OBMol
2426 OBBase* pOb = pConv->GetChemObject();
2427 OBMol* pmol = dynamic_cast<OBMol*> (pOb);
2428 bool ret=false;
2429 if(pmol)
2430 ret=WriteMolecule(pmol,pConv);
2431 delete pOb;
2432 return ret;
2433 };
2434 };
2435
2436 //Make an instance of the format class
2437 FIXFormat theFIXFormat;
2438
2439 /////////////////////////////////////////////////////////////////
2440
2441 bool FIXFormat::WriteMolecule(OBBase* pOb, OBConversion* pConv)
2442 {
2443 OBMol* pmol = dynamic_cast<OBMol*>(pOb);
2444 if(pmol==NULL)
2445 return false;
2446
2447 //Define some references so we can use the old parameter names
2448 ostream &ofs = *pConv->GetOutStream();
2449 OBMol &mol = *pmol;
2450
2451 char buffer[BUFF_SIZE];
2452 OBMol2Smi m2s;
2453
2454 // This is a hack to prevent recursion problems.
2455 // we still need to fix the underlying problem -GRH
2456 if (mol.NumAtoms() > 1000)
2457 {
2458 #ifdef HAVE_SSTREAM
2459 stringstream errorMsg;
2460 #else
2461 strstream errorMsg;
2462 #endif
2463 errorMsg << "SMILES Conversion failed: Molecule is too large to convert. Open Babel is currently limited to 1000 atoms." << endl;
2464 errorMsg << " Molecule size: " << mol.NumAtoms() << " atoms " << endl;
2465 obErrorLog.ThrowError(__FUNCTION__, errorMsg.str(), obInfo);
2466 return(false);
2467 }
2468
2469 m2s.Init();
2470 //m2s.AssignCisTrans(mol);
2471 m2s.CorrectAromaticAmineCharge(mol);
2472 m2s.CreateSmiString(mol,buffer);
2473
2474 OBAtom *atom;
2475 vector<int>::iterator i;
2476 vector<int> order = m2s.GetOutputOrder();
2477 ofs << buffer << endl;
2478
2479 int j;
2480 for (j = 0;j < mol.NumConformers();j++)
2481 {
2482 mol.SetConformer(j);
2483 for (i = order.begin();i != order.end();i++)
2484 {
2485 atom = mol.GetAtom(*i);
2486 sprintf(buffer,"%9.3f %9.3f %9.3f",atom->GetX(),atom->GetY(),atom->GetZ());
2487 ofs << buffer<< endl;
2488 }
2489 }
2490 return(true);
2491 }
2492
2493 OBSmiNode::OBSmiNode(OBAtom *atom)
2494 {
2495 _atom = atom;
2496 _parent = NULL;
2497 _nextnode.clear();
2498 _nextbond.clear();
2499 }
2500
2501 void OBSmiNode::SetNextNode(OBSmiNode *node,OBBond *bond)
2502 {
2503 _nextnode.push_back(node);
2504 _nextbond.push_back(bond);
2505 }
2506
2507 OBSmiNode::~OBSmiNode()
2508 {
2509 vector<OBSmiNode*>::iterator i;
2510 for (i = _nextnode.begin();i != _nextnode.end();i++)
2511 delete (*i);
2512 }
2513
2514
2515 bool WriteTheSmiles(OBMol & mol,char *out)
2516 {
2517 char buffer[2*BUFF_SIZE];
2518
2519 OBMol2Smi m2s;
2520
2521 m2s.Init();
2522 m2s.CorrectAromaticAmineCharge(mol);
2523 m2s.CreateSmiString(mol,buffer);
2524
2525 strcpy(out,buffer);
2526 return(true);
2527
2528 }
2529 }