source: src/moleculelist.cpp@ 8453b3

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Last change on this file since 8453b3 was ed26ae, checked in by Frederik Heber <heber@…>, 13 years ago

Renamed calls to element::getNumber() -> ::getAtomicNumber().

  • dropped element::getNumber() as getAtomicNumber has same functionality.
  • Property mode set to 100755
File size: 21.1 KB
Line 
1/*
2 * Project: MoleCuilder
3 * Description: creates and alters molecular systems
4 * Copyright (C) 2010-2012 University of Bonn. All rights reserved.
5 * Please see the LICENSE file or "Copyright notice" in builder.cpp for details.
6 */
7
8/** \file MoleculeListClass.cpp
9 *
10 * Function implementations for the class MoleculeListClass.
11 *
12 */
13
14// include config.h
15#ifdef HAVE_CONFIG_H
16#include <config.h>
17#endif
18
19#include "CodePatterns/MemDebug.hpp"
20
21#include <iostream>
22
23//#include <gsl/gsl_inline.h>
24#include <gsl/gsl_heapsort.h>
25
26#include "MoleculeListClass.hpp"
27
28#include "CodePatterns/Log.hpp"
29
30#include "Atom/atom.hpp"
31#include "Bond/bond.hpp"
32#include "Box.hpp"
33#include "config.hpp"
34#include "Element/element.hpp"
35#include "Element/periodentafel.hpp"
36#include "Fragmentation/Graph.hpp"
37#include "Fragmentation/KeySet.hpp"
38#include "Graph/BondGraph.hpp"
39#include "Helpers/helpers.hpp"
40#include "molecule.hpp"
41#include "LinearAlgebra/RealSpaceMatrix.hpp"
42#include "Parser/FormatParserStorage.hpp"
43#include "World.hpp"
44
45
46/** Constructor for MoleculeListClass.
47 */
48MoleculeListClass::MoleculeListClass(World *_world) :
49 Observable("MoleculeListClass"),
50 MaxIndex(1),
51 world(_world)
52{};
53
54/** Destructor for MoleculeListClass.
55 */
56MoleculeListClass::~MoleculeListClass()
57{
58 LOG(4, "Clearing ListOfMolecules.");
59 for(MoleculeList::iterator MolRunner = ListOfMolecules.begin(); MolRunner != ListOfMolecules.end(); ++MolRunner)
60 (*MolRunner)->signOff(this);
61 ListOfMolecules.clear(); // empty list
62};
63
64/** Insert a new molecule into the list and set its number.
65 * \param *mol molecule to add to list.
66 */
67void MoleculeListClass::insert(molecule *mol)
68{
69 OBSERVE;
70 mol->IndexNr = MaxIndex++;
71 ListOfMolecules.push_back(mol);
72 mol->signOn(this);
73};
74
75/** Erases a molecule from the list.
76 * \param *mol molecule to add to list.
77 */
78void MoleculeListClass::erase(molecule *mol)
79{
80 OBSERVE;
81 mol->signOff(this);
82 ListOfMolecules.remove(mol);
83};
84
85/** Comparison function for two values.
86 * \param *a
87 * \param *b
88 * \return <0, \a *a less than \a *b, ==0 if equal, >0 \a *a greater than \a *b
89 */
90int CompareDoubles (const void * a, const void * b)
91{
92 if (*(double *)a > *(double *)b)
93 return -1;
94 else if (*(double *)a < *(double *)b)
95 return 1;
96 else
97 return 0;
98};
99
100
101/** Compare whether two molecules are equal.
102 * \param *a molecule one
103 * \param *n molecule two
104 * \return lexical value (-1, 0, +1)
105 */
106int MolCompare(const void *a, const void *b)
107{
108 int *aList = NULL, *bList = NULL;
109 int Count, Counter, aCounter, bCounter;
110 int flag;
111
112 // sort each atom list and put the numbers into a list, then go through
113 //LOG(0, "Comparing fragment no. " << *(molecule **)a << " to " << *(molecule **)b << ".");
114 // Yes those types are awkward... but check it for yourself it checks out this way
115 molecule *const *mol1_ptr= static_cast<molecule *const *>(a);
116 molecule *mol1 = *mol1_ptr;
117 molecule *const *mol2_ptr= static_cast<molecule *const *>(b);
118 molecule *mol2 = *mol2_ptr;
119 if (mol1->getAtomCount() < mol2->getAtomCount()) {
120 return -1;
121 } else {
122 if (mol1->getAtomCount() > mol2->getAtomCount())
123 return +1;
124 else {
125 Count = mol1->getAtomCount();
126 aList = new int[Count];
127 bList = new int[Count];
128
129 // fill the lists
130 Counter = 0;
131 aCounter = 0;
132 bCounter = 0;
133 molecule::const_iterator aiter = mol1->begin();
134 molecule::const_iterator biter = mol2->begin();
135 for (;(aiter != mol1->end()) && (biter != mol2->end());
136 ++aiter, ++biter) {
137 if ((*aiter)->GetTrueFather() == NULL)
138 aList[Counter] = Count + (aCounter++);
139 else
140 aList[Counter] = (*aiter)->GetTrueFather()->getNr();
141 if ((*biter)->GetTrueFather() == NULL)
142 bList[Counter] = Count + (bCounter++);
143 else
144 bList[Counter] = (*biter)->GetTrueFather()->getNr();
145 Counter++;
146 }
147 // check if AtomCount was for real
148 flag = 0;
149 if ((aiter == mol1->end()) && (biter != mol2->end())) {
150 flag = -1;
151 } else {
152 if ((aiter != mol1->end()) && (biter == mol2->end()))
153 flag = 1;
154 }
155 if (flag == 0) {
156 // sort the lists
157 gsl_heapsort(aList, Count, sizeof(int), CompareDoubles);
158 gsl_heapsort(bList, Count, sizeof(int), CompareDoubles);
159 // compare the lists
160
161 flag = 0;
162 for (int i = 0; i < Count; i++) {
163 if (aList[i] < bList[i]) {
164 flag = -1;
165 } else {
166 if (aList[i] > bList[i])
167 flag = 1;
168 }
169 if (flag != 0)
170 break;
171 }
172 }
173 delete[] (aList);
174 delete[] (bList);
175 return flag;
176 }
177 }
178 return -1;
179};
180
181/** Output of a list of all molecules.
182 * \param *out output stream
183 */
184void MoleculeListClass::Enumerate(std::ostream *out)
185{
186 periodentafel *periode = World::getInstance().getPeriode();
187 std::map<atomicNumber_t,unsigned int> counts;
188 double size=0;
189 Vector Origin;
190
191 // header
192 (*out) << "Index\tName\t\tAtoms\tFormula\tCenter\tSize" << endl;
193 (*out) << "-----------------------------------------------" << endl;
194 if (ListOfMolecules.size() == 0)
195 (*out) << "\tNone" << endl;
196 else {
197 Origin.Zero();
198 for (MoleculeList::iterator ListRunner = ListOfMolecules.begin(); ListRunner != ListOfMolecules.end(); ListRunner++) {
199 // count atoms per element and determine size of bounding sphere
200 size=0.;
201 for (molecule::const_iterator iter = (*ListRunner)->begin(); iter != (*ListRunner)->end(); ++iter) {
202 counts[(*iter)->getType()->getAtomicNumber()]++;
203 if ((*iter)->DistanceSquared(Origin) > size)
204 size = (*iter)->DistanceSquared(Origin);
205 }
206 // output Index, Name, number of atoms, chemical formula
207 (*out) << ((*ListRunner)->ActiveFlag ? "*" : " ") << (*ListRunner)->IndexNr << "\t" << (*ListRunner)->name << "\t\t" << (*ListRunner)->getAtomCount() << "\t";
208
209 std::map<atomicNumber_t,unsigned int>::reverse_iterator iter;
210 for(iter=counts.rbegin(); iter!=counts.rend();++iter){
211 atomicNumber_t Z =(*iter).first;
212 (*out) << periode->FindElement(Z)->getSymbol() << (*iter).second;
213 }
214 // Center and size
215 Vector *Center = (*ListRunner)->DetermineCenterOfAll();
216 (*out) << "\t" << *Center << "\t" << sqrt(size) << endl;
217 delete(Center);
218 }
219 }
220};
221
222/** Returns the molecule with the given index \a index.
223 * \param index index of the desired molecule
224 * \return pointer to molecule structure, NULL if not found
225 */
226molecule * MoleculeListClass::ReturnIndex(int index)
227{
228 for(MoleculeList::iterator ListRunner = ListOfMolecules.begin(); ListRunner != ListOfMolecules.end(); ListRunner++)
229 if ((*ListRunner)->IndexNr == index)
230 return (*ListRunner);
231 return NULL;
232};
233
234
235/** Simple output of the pointers in ListOfMolecules.
236 * \param *out output stream
237 */
238void MoleculeListClass::Output(std::ostream *out)
239{
240 if (DoLog(1)) {
241 std::stringstream output;
242 output << "MoleculeList: ";
243 for (MoleculeList::iterator ListRunner = ListOfMolecules.begin(); ListRunner != ListOfMolecules.end(); ListRunner++)
244 output << *ListRunner << "\t";
245 LOG(1, output.str());
246 }
247};
248
249/** Returns a string with \a i prefixed with 0s to match order of total number of molecules in digits.
250 * \param FragmentNumber total number of fragments to determine necessary number of digits
251 * \param digits number to create with 0 prefixed
252 * \return allocated(!) char array with number in digits, ten base.
253 */
254inline char *FixedDigitNumber(const int FragmentNumber, const int digits)
255{
256 char *returnstring;
257 int number = FragmentNumber;
258 int order = 0;
259 while (number != 0) { // determine number of digits needed
260 number = (int)floor(((double)number / 10.));
261 order++;
262 //LOG(0, "Number is " << number << ", order is " << order << ".");
263 }
264 // allocate string
265 returnstring = new char[order + 2];
266 // terminate and fill string array from end backward
267 returnstring[order] = '\0';
268 number = digits;
269 for (int i=order;i--;) {
270 returnstring[i] = '0' + (char)(number % 10);
271 number = (int)floor(((double)number / 10.));
272 }
273 //LOG(0, returnstring);
274 return returnstring;
275};
276
277/** Calculates necessary hydrogen correction due to unwanted interaction between saturated ones.
278 * If for a pair of two hydrogen atoms a and b, at least is a saturated one, and a and b are not
279 * bonded to the same atom, then we add for this pair a correction term constructed from a Morse
280 * potential function fit to QM calculations with respecting to the interatomic hydrogen distance.
281 * \param &path path to file
282 */
283bool MoleculeListClass::AddHydrogenCorrection(std::string &path)
284{
285 const bond *Binder = NULL;
286 double ***FitConstant = NULL, **correction = NULL;
287 int a, b;
288 ofstream output;
289 ifstream input;
290 string line;
291 stringstream zeile;
292 double distance;
293 char ParsedLine[1023];
294 double tmp;
295 char *FragmentNumber = NULL;
296
297 LOG(1, "Saving hydrogen saturation correction ... ");
298 // 0. parse in fit constant files that should have the same dimension as the final energy files
299 // 0a. find dimension of matrices with constants
300 line = path;
301 line += "1";
302 line += FITCONSTANTSUFFIX;
303 input.open(line.c_str());
304 if (input.fail()) {
305 LOG(1, endl << "Unable to open " << line << ", is the directory correct?");
306 return false;
307 }
308 a = 0;
309 b = -1; // we overcount by one
310 while (!input.eof()) {
311 input.getline(ParsedLine, 1023);
312 zeile.str(ParsedLine);
313 int i = 0;
314 while (!zeile.eof()) {
315 zeile >> distance;
316 i++;
317 }
318 if (i > a)
319 a = i;
320 b++;
321 }
322 LOG(0, "I recognized " << a << " columns and " << b << " rows, ");
323 input.close();
324
325 // 0b. allocate memory for constants
326 FitConstant = new double**[3];
327 for (int k = 0; k < 3; k++) {
328 FitConstant[k] = new double*[a];
329 for (int i = a; i--;) {
330 FitConstant[k][i] = new double[b];
331 for (int j = b; j--;) {
332 FitConstant[k][i][j] = 0.;
333 }
334 }
335 }
336 // 0c. parse in constants
337 for (int i = 0; i < 3; i++) {
338 line = path;
339 line.append("/");
340 line += FRAGMENTPREFIX;
341 sprintf(ParsedLine, "%d", i + 1);
342 line += ParsedLine;
343 line += FITCONSTANTSUFFIX;
344 input.open(line.c_str());
345 if (input.fail()) {
346 ELOG(0, endl << "Unable to open " << line << ", is the directory correct?");
347 performCriticalExit();
348 return false;
349 }
350 int k = 0, l;
351 while ((!input.eof()) && (k < b)) {
352 input.getline(ParsedLine, 1023);
353 //LOG(1, "INFO: Current Line: " << ParsedLine);
354 zeile.str(ParsedLine);
355 zeile.clear();
356 l = 0;
357 //std::stringstream output;
358 while ((!zeile.eof()) && (l < a)) {
359 zeile >> FitConstant[i][l][k];
360 //output << FitConstant[i][l][k] << "\t";
361 l++;
362 }
363 //LOG(1, "INFO: fit constant are " << output.str());
364 k++;
365 }
366 input.close();
367 }
368 if (DoLog(1)) {
369 for (int k = 0; k < 3; k++) {
370 std::stringstream output;
371 output << "Constants " << k << ": ";
372 for (int j = 0; j < b; j++) {
373 for (int i = 0; i < a; i++) {
374 output << FitConstant[k][i][j] << "\t";
375 }
376 output << std::endl;
377 }
378 LOG(0, output.str());
379 }
380 }
381
382 // 0d. allocate final correction matrix
383 correction = new double*[a];
384 for (int i = a; i--;)
385 correction[i] = new double[b];
386
387 // 1a. go through every molecule in the list
388 for (MoleculeList::iterator ListRunner = ListOfMolecules.begin(); ListRunner != ListOfMolecules.end(); ListRunner++) {
389 // 1b. zero final correction matrix
390 for (int k = a; k--;)
391 for (int j = b; j--;)
392 correction[k][j] = 0.;
393 // 2. take every hydrogen that is a saturated one
394 for (molecule::const_iterator iter = (*ListRunner)->begin(); iter != (*ListRunner)->end(); ++iter) {
395 //LOG(1, "(*iter): " << *(*iter) << " with first bond " << *((*iter)->getListOfBonds().begin()) << ".");
396 if (((*iter)->getType()->getAtomicNumber() == 1) && (((*iter)->father == NULL)
397 || ((*iter)->father->getType()->getAtomicNumber() != 1))) { // if it's a hydrogen
398 for (molecule::const_iterator runner = (*ListRunner)->begin(); runner != (*ListRunner)->end(); ++runner) {
399 //LOG(2, "Runner: " << *(*runner) << " with first bond " << *((*iter)->getListOfBonds().begin()) << ".");
400 // 3. take every other hydrogen that is the not the first and not bound to same bonding partner
401 const BondList &bondlist = (*runner)->getListOfBonds();
402 Binder = *(bondlist.begin());
403 if (((*runner)->getType()->getAtomicNumber() == 1) && ((*runner)->getNr() > (*iter)->getNr()) && (Binder->GetOtherAtom((*runner)) != Binder->GetOtherAtom((*iter)))) { // (hydrogens have only one bonding partner!)
404 // 4. evaluate the morse potential for each matrix component and add up
405 distance = (*runner)->distance(*(*iter));
406 //std::stringstream output;
407 //output << "Fragment " << (*ListRunner)->name << ": " << *(*runner) << "<= " << distance << "=>" << *(*iter) << ":";
408 for (int k = 0; k < a; k++) {
409 for (int j = 0; j < b; j++) {
410 switch (k) {
411 case 1:
412 case 7:
413 case 11:
414 tmp = pow(FitConstant[0][k][j] * (1. - exp(-FitConstant[1][k][j] * (distance - FitConstant[2][k][j]))), 2);
415 break;
416 default:
417 tmp = FitConstant[0][k][j] * pow(distance, FitConstant[1][k][j]) + FitConstant[2][k][j];
418 break;
419 };
420 correction[k][j] -= tmp; // ground state is actually lower (disturbed by additional interaction)
421 //output << tmp << "\t";
422 }
423 //output << endl;
424 }
425 //LOG(0, output.str());
426 }
427 }
428 }
429 }
430 // 5. write final matrix to file
431 line = path;
432 line.append("/");
433 line += FRAGMENTPREFIX;
434 FragmentNumber = FixedDigitNumber(ListOfMolecules.size(), (*ListRunner)->IndexNr);
435 line += FragmentNumber;
436 delete[] (FragmentNumber);
437 line += HCORRECTIONSUFFIX;
438 output.open(line.c_str());
439 output << "Time\t\tTotal\t\tKinetic\t\tNonLocal\tCorrelation\tExchange\tPseudo\t\tHartree\t\t-Gauss\t\tEwald\t\tIonKin\t\tETotal" << endl;
440 for (int j = 0; j < b; j++) {
441 for (int i = 0; i < a; i++)
442 output << correction[i][j] << "\t";
443 output << endl;
444 }
445 output.close();
446 }
447 for (int i = a; i--;)
448 delete[](correction[i]);
449 delete[](correction);
450
451 line = path;
452 line.append("/");
453 line += HCORRECTIONSUFFIX;
454 output.open(line.c_str());
455 output << "Time\t\tTotal\t\tKinetic\t\tNonLocal\tCorrelation\tExchange\tPseudo\t\tHartree\t\t-Gauss\t\tEwald\t\tIonKin\t\tETotal" << endl;
456 for (int j = 0; j < b; j++) {
457 for (int i = 0; i < a; i++)
458 output << 0 << "\t";
459 output << endl;
460 }
461 output.close();
462 // 6. free memory of parsed matrices
463 for (int k = 0; k < 3; k++) {
464 for (int i = a; i--;) {
465 delete[](FitConstant[k][i]);
466 }
467 delete[](FitConstant[k]);
468 }
469 delete[](FitConstant);
470 LOG(0, "done.");
471 return true;
472};
473
474/** Store force indices, i.e. the connection between the nuclear index in the total molecule config and the respective atom in fragment config.
475 * \param &path path to file
476 * \param *SortIndex Index to map from the BFS labeling to the sequence how of Ion_Type in the config
477 * \return true - file written successfully, false - writing failed
478 */
479bool MoleculeListClass::StoreForcesFile(std::string &path, int *SortIndex)
480{
481 bool status = true;
482 string filename(path);
483 filename += FORCESFILE;
484 ofstream ForcesFile(filename.c_str());
485 periodentafel *periode=World::getInstance().getPeriode();
486
487 // open file for the force factors
488 LOG(1, "Saving force factors ... ");
489 if (!ForcesFile.fail()) {
490 //output << prefix << "Forces" << endl;
491 for (MoleculeList::iterator ListRunner = ListOfMolecules.begin(); ListRunner != ListOfMolecules.end(); ListRunner++) {
492 periodentafel::const_iterator elemIter;
493 for(elemIter=periode->begin();elemIter!=periode->end();++elemIter){
494 if ((*ListRunner)->hasElement((*elemIter).first)) { // if this element got atoms
495 for(molecule::iterator atomIter = (*ListRunner)->begin(); atomIter !=(*ListRunner)->end();++atomIter){
496 if ((*atomIter)->getType()->getAtomicNumber() == (*elemIter).first) {
497 if (((*atomIter)->GetTrueFather() != NULL) && ((*atomIter)->GetTrueFather() != (*atomIter))) {// if there is a rea
498 ForcesFile << SortIndex[(*atomIter)->GetTrueFather()->getNr()] << "\t";
499 } else
500 // otherwise a -1 to indicate an added saturation hydrogen
501 ForcesFile << "-1\t";
502 }
503 }
504 }
505 }
506 ForcesFile << endl;
507 }
508 ForcesFile.close();
509 LOG(1, "done.");
510 } else {
511 status = false;
512 LOG(1, "failed to open file " << filename << ".");
513 }
514 ForcesFile.close();
515
516 return status;
517};
518
519/** Writes a config file for each molecule in the given \a **FragmentList.
520 * \param *out output stream for debugging
521 * \param &prefix path and prefix to the fragment config files
522 * \param *SortIndex Index to map from the BFS labeling to the sequence how of Ion_Type in the config
523 * \param type desired type to store
524 * \return true - success (each file was written), false - something went wrong.
525 */
526bool MoleculeListClass::OutputConfigForListOfFragments(std::string &prefix, int *SortIndex, ParserTypes type)
527{
528 ofstream outputFragment;
529 std::string FragmentName;
530 bool result = true;
531 bool intermediateResult = true;
532 Vector BoxDimension;
533 char *FragmentNumber = NULL;
534 int FragmentCounter = 0;
535 ofstream output;
536 RealSpaceMatrix cell_size = World::getInstance().getDomain().getM();
537 RealSpaceMatrix cell_size_backup = cell_size;
538 int count=0;
539
540 // store the fragments as config and as xyz
541 for (MoleculeList::iterator ListRunner = ListOfMolecules.begin(); ListRunner != ListOfMolecules.end(); ListRunner++) {
542 // correct periodic
543 if ((*ListRunner)->ScanForPeriodicCorrection()) {
544 count++;
545 }
546
547 {
548 // list atoms in fragment for debugging
549 std::stringstream output;
550 output << "Contained atoms: ";
551 for (molecule::const_iterator iter = (*ListRunner)->begin(); iter != (*ListRunner)->end(); ++iter) {
552 output << (*iter)->getName() << " ";
553 }
554 LOG(2, output.str());
555 }
556
557 {
558 // center on edge
559 (*ListRunner)->CenterEdge(&BoxDimension);
560 for (int k = 0; k < NDIM; k++) // if one edge is to small, set at least to 1 angstroem
561 if (BoxDimension[k] < 1.)
562 BoxDimension[k] += 1.;
563 (*ListRunner)->SetBoxDimension(&BoxDimension); // update Box of atoms by boundary
564 for (int k = 0; k < NDIM; k++) {
565 BoxDimension[k] = 2.5 * (World::getInstance().getConfig()->GetIsAngstroem() ? 1. : 1. / AtomicLengthToAngstroem);
566 cell_size.at(k,k) = BoxDimension[k] * 2.;
567 }
568 World::getInstance().setDomain(cell_size);
569 (*ListRunner)->Translate(&BoxDimension);
570
571 // output file
572 std::vector<atom *> atoms;
573 // TODO: Convert iterator to const_iterator when FormatParserStorage::save() has vector<const atom *>
574 // We need iterator here because FormatParserStorage::save() need vector<atom *> not const refs.
575 for (molecule::iterator iter = (*ListRunner)->begin(); iter != (*ListRunner)->end(); ++iter) {
576 atoms.push_back(*iter);
577 }
578 FragmentNumber = FixedDigitNumber(ListOfMolecules.size(), FragmentCounter++);
579 FragmentName = prefix + FragmentNumber + "." + FormatParserStorage::getInstance().getSuffixFromType(type);
580 outputFragment.open(FragmentName.c_str(), ios::out);
581 std::stringstream output;
582 output << "Saving bond fragment No. " << FragmentNumber << "/" << FragmentCounter - 1 << " as XYZ ... ";
583 if ((intermediateResult = FormatParserStorage::getInstance().save(
584 outputFragment,
585 FormatParserStorage::getInstance().getSuffixFromType(type),
586 atoms)))
587 output << " done.";
588 else
589 output << " failed.";
590 LOG(3, output.str());
591 delete[](FragmentNumber);
592
593 result = result && intermediateResult;
594 outputFragment.close();
595 outputFragment.clear();
596 }
597 }
598 LOG(0, "STATUS: done.");
599
600 // printing final number
601 LOG(2, "INFO: Final number of fragments: " << FragmentCounter << ".");
602
603 // printing final number
604 LOG(2, "INFO: For " << count << " fragments periodic correction would have been necessary.");
605
606 // restore cell_size
607 World::getInstance().setDomain(cell_size_backup);
608
609 return result;
610};
611
612/** Counts the number of molecules with the molecule::ActiveFlag set.
613 * \return number of molecules with ActiveFlag set to true.
614 */
615int MoleculeListClass::NumberOfActiveMolecules()
616{
617 int count = 0;
618 for (MoleculeList::iterator ListRunner = ListOfMolecules.begin(); ListRunner != ListOfMolecules.end(); ListRunner++)
619 count += ((*ListRunner)->ActiveFlag ? 1 : 0);
620 return count;
621};
622
623/** Count all atoms in each molecule.
624 * \return number of atoms in the MoleculeListClass.
625 * TODO: the inner loop should be done by some (double molecule::CountAtom()) function
626 */
627int MoleculeListClass::CountAllAtoms() const
628{
629 int AtomNo = 0;
630 for (MoleculeList::const_iterator MolWalker = ListOfMolecules.begin(); MolWalker != ListOfMolecules.end(); MolWalker++) {
631 AtomNo += (*MolWalker)->size();
632 }
633 return AtomNo;
634}
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