source: src/Parser/PdbParser.cpp@ ffa69c

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Last change on this file since ffa69c was ffa69c, checked in by Frederik Heber <heber@…>, 9 years ago

FIX: PdbParser scanned through all present atoms once per ATOM line.

  • this was the cause of a O(N2) scaling issue.
  • Property mode set to 100644
File size: 34.2 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 * Copyright (C) 2013 Frederik Heber. All rights reserved.
6 *
7 *
8 * This file is part of MoleCuilder.
9 *
10 * MoleCuilder 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, either version 2 of the License, or
13 * (at your option) any later version.
14 *
15 * MoleCuilder is distributed in the hope that it will be useful,
16 * but WITHOUT ANY WARRANTY; without even the implied warranty of
17 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
18 * GNU General Public License for more details.
19 *
20 * You should have received a copy of the GNU General Public License
21 * along with MoleCuilder. If not, see <http://www.gnu.org/licenses/>.
22 */
23
24/*
25 * PdbParser.cpp
26 *
27 * Created on: Aug 17, 2010
28 * Author: heber
29 */
30
31// include config.h
32#ifdef HAVE_CONFIG_H
33#include <config.h>
34#endif
35
36#include "CodePatterns/MemDebug.hpp"
37
38#include "CodePatterns/Assert.hpp"
39#include "CodePatterns/Log.hpp"
40#include "CodePatterns/toString.hpp"
41#include "CodePatterns/Verbose.hpp"
42
43#include "Atom/atom.hpp"
44#include "Bond/bond.hpp"
45#include "Descriptors/AtomIdDescriptor.hpp"
46#include "Element/element.hpp"
47#include "Element/periodentafel.hpp"
48#include "molecule.hpp"
49#include "Parser/PdbParser.hpp"
50#include "World.hpp"
51#include "WorldTime.hpp"
52
53#include <algorithm>
54#include <cmath>
55#include <map>
56#include <vector>
57
58#include <iostream>
59#include <iomanip>
60
61using namespace std;
62
63// declare specialized static variables
64const std::string FormatParserTrait<pdb>::name = "pdb";
65const std::string FormatParserTrait<pdb>::suffix = "pdb";
66const ParserTypes FormatParserTrait<pdb>::type = pdb;
67
68/**
69 * Constructor.
70 */
71FormatParser< pdb >::FormatParser() :
72 FormatParser_common(NULL)
73{
74 knownTokens["ATOM"] = PdbKey::Atom;
75 knownTokens["HETATM"] = PdbKey::Atom;
76 knownTokens["TER"] = PdbKey::Filler;
77 knownTokens["END"] = PdbKey::EndOfTimestep;
78 knownTokens["CONECT"] = PdbKey::Connect;
79 knownTokens["REMARK"] = PdbKey::Remark;
80 knownTokens[""] = PdbKey::EndOfTimestep;
81
82 // argh, why can't just PdbKey::X+(size_t)i
83 PositionEnumMap[0] = PdbKey::X;
84 PositionEnumMap[1] = PdbKey::Y;
85 PositionEnumMap[2] = PdbKey::Z;
86}
87
88/**
89 * Destructor.
90 */
91FormatParser< pdb >::~FormatParser()
92{
93 PdbAtomInfoContainer::clearknownDataKeys();
94 additionalAtomData.clear();
95}
96
97
98/** Parses the initial word of the given \a line and returns the token type.
99 *
100 * @param line line to scan
101 * @return token type
102 */
103enum PdbKey::KnownTokens FormatParser< pdb >::getToken(std::string &line)
104{
105 // look for first space
106 std::string token = line.substr(0,6);
107 const size_t space_location = token.find(' ');
108 const size_t tab_location = token.find('\t');
109 size_t location = space_location < tab_location ? space_location : tab_location;
110 if (location != string::npos) {
111 //LOG(1, "Found space at position " << space_location);
112 token = token.substr(0,space_location);
113 }
114
115 //LOG(1, "Token is " << token);
116 if (knownTokens.count(token) == 0)
117 return PdbKey::NoToken;
118 else
119 return knownTokens[token];
120
121 return PdbKey::NoToken;
122}
123
124/**
125 * Loads atoms from a PDB-formatted file.
126 *
127 * \param PDB file
128 */
129void FormatParser< pdb >::load(istream* file) {
130 string line;
131 size_t linecount = 0;
132 enum PdbKey::KnownTokens token;
133
134 // reset id maps for this file (to correctly parse CONECT entries)
135 resetIdAssociations();
136
137 bool NotEndOfFile = true;
138 molecule *newmol = World::getInstance().createMolecule();
139 newmol->ActiveFlag = true;
140 unsigned int step = 0;
141 while (NotEndOfFile) {
142 bool NotEndOfTimestep = true;
143 while (NotEndOfTimestep && NotEndOfFile) {
144 std::getline(*file, line, '\n');
145 if (!line.empty()) {
146 // extract first token
147 token = getToken(line);
148 switch (token) {
149 case PdbKey::Atom:
150 LOG(3,"INFO: Parsing ATOM entry for time step " << step << ".");
151 readAtomDataLine(step, line, newmol);
152 break;
153 case PdbKey::Remark:
154 LOG(3,"INFO: Parsing REM entry for time step " << step << ".");
155 break;
156 case PdbKey::Connect:
157 LOG(3,"INFO: Parsing CONECT entry for time step " << step << ".");
158 readNeighbors(step, line);
159 break;
160 case PdbKey::Filler:
161 LOG(3,"INFO: Stumbled upon Filler entry for time step " << step << ".");
162 break;
163 case PdbKey::EndOfTimestep:
164 LOG(1,"INFO: Parsing END entry or empty line for time step " << step << ".");
165 NotEndOfTimestep = false;
166 break;
167 default:
168 // TODO: put a throw here
169 ELOG(2, "Unknown token: '" << line << "' for time step " << step << ".");
170 //ASSERT(0, "FormatParser< pdb >::load() - Unknown token in line "+toString(linecount)+": "+line+".");
171 break;
172 }
173 }
174 NotEndOfFile = NotEndOfFile && (file->good());
175 linecount++;
176 }
177 ++step;
178 }
179 LOG(4, "INFO: Listing all newly parsed atoms.");
180 BOOST_FOREACH(atom *_atom, *newmol)
181 LOG(4, "INFO: Atom " << _atom->getName() << " " << *dynamic_cast<AtomInfo *>(_atom) << ".");
182
183 // refresh atom::nr and atom::name
184 newmol->getAtomCount();
185}
186
187/**
188 * Saves the \a atoms into as a PDB file.
189 *
190 * \param file where to save the state
191 * \param atoms atoms to store
192 */
193void FormatParser< pdb >::save(
194 ostream* file,
195 const std::vector<const atom *> &AtomList)
196{
197 LOG(2, "DEBUG: Saving changes to pdb.");
198
199 // check for maximum number of time steps
200 size_t max_timesteps = 0;
201 for (vector<const atom *>::const_iterator atomIt = AtomList.begin();
202 atomIt != AtomList.end(); atomIt++) {
203 const atom * _atom = *atomIt;
204 LOG(4, "INFO: Atom " << _atom->getName() << " "
205 << *dynamic_cast<const AtomInfo *>(_atom) << ".");
206 if (_atom->getTrajectorySize() > max_timesteps)
207 max_timesteps = _atom->getTrajectorySize();
208 }
209 LOG(2,"INFO: Found a maximum of " << max_timesteps << " time steps to store.");
210
211 // re-distribute serials
212 resetIdAssociations();
213 // (new atoms might have been added)
214 int AtomNo = 1; // serial number starts at 1 in pdb
215 for (vector<const atom *>::const_iterator atomIt = AtomList.begin();
216 atomIt != AtomList.end(); atomIt++) {
217 PdbAtomInfoContainer &atomInfo = getadditionalAtomData(*atomIt);
218 associateLocaltoGlobalId(AtomNo, (*atomIt)->getId());
219 atomInfo.set(PdbKey::serial, toString(AtomNo));
220 ++AtomNo;
221 }
222
223 // store all time steps (always do first step)
224 for (size_t step = 0; (step == 0) || (step < max_timesteps); ++step) {
225 {
226 // add initial remark
227 *file << "REMARK created by molecuilder on ";
228 time_t now = time((time_t *)NULL); // Get the system time and put it into 'now' as 'calender time'
229 // ctime ends in \n\0, we have to cut away the newline
230 std::string time(ctime(&now));
231 size_t pos = time.find('\n');
232 if (pos != 0)
233 *file << time.substr(0,pos);
234 else
235 *file << time;
236 *file << ", time step " << step;
237 *file << endl;
238 }
239
240 {
241 std::map<size_t,size_t> MolIdMap;
242 size_t MolNo = 1; // residue number starts at 1 in pdb
243 for (vector<const atom *>::const_iterator atomIt = AtomList.begin();
244 atomIt != AtomList.end(); atomIt++) {
245 const molecule *mol = (*atomIt)->getMolecule();
246 if ((mol != NULL) && (MolIdMap.find(mol->getId()) == MolIdMap.end())) {
247 MolIdMap[mol->getId()] = MolNo++;
248 }
249 }
250 const size_t MaxMol = MolNo;
251
252 // have a count per element and per molecule (0 is for all homeless atoms)
253 std::vector<int> **elementNo = new std::vector<int>*[MaxMol];
254 for (size_t i = 0; i < MaxMol; ++i)
255 elementNo[i] = new std::vector<int>(MAX_ELEMENTS,1);
256 char name[MAXSTRINGSIZE];
257 std::string ResidueName;
258
259 // write ATOMs
260 for (vector<const atom *>::const_iterator atomIt = AtomList.begin();
261 atomIt != AtomList.end(); atomIt++) {
262 PdbAtomInfoContainer &atomInfo = getadditionalAtomData(*atomIt);
263 // gather info about residue
264 const molecule *mol = (*atomIt)->getMolecule();
265 if (mol == NULL) {
266 MolNo = 0;
267 atomInfo.set(PdbKey::resSeq, "0");
268 } else {
269 ASSERT(MolIdMap.find(mol->getId()) != MolIdMap.end(),
270 "FormatParser< pdb >::save() - Mol id "+toString(mol->getId())+" not present despite we set it?!");
271 MolNo = MolIdMap[mol->getId()];
272 atomInfo.set(PdbKey::resSeq, toString(MolIdMap[mol->getId()]));
273 if (atomInfo.get<std::string>(PdbKey::resName) == "-")
274 atomInfo.set(PdbKey::resName, mol->getName().substr(0,3));
275 }
276 // get info about atom
277 const size_t Z = (*atomIt)->getType()->getAtomicNumber();
278 if (atomInfo.get<std::string>(PdbKey::name) == "-") { // if no name set, give it a new name
279 sprintf(name, "%2s%02d",(*atomIt)->getType()->getSymbol().c_str(), (*elementNo[MolNo])[Z]);
280 (*elementNo[MolNo])[Z] = ((*elementNo[MolNo])[Z]+1) % 100; // confine to two digits
281 atomInfo.set(PdbKey::name, name);
282 }
283 // set position
284 for (size_t i=0; i<NDIM;++i) {
285 stringstream position;
286 position << setprecision(7) << (*atomIt)->getPositionAtStep(step).at(i);
287 atomInfo.set(PositionEnumMap[i], position.str());
288 }
289 // change element and charge if changed
290 if (atomInfo.get<std::string>(PdbKey::element) != (*atomIt)->getType()->getSymbol()) {
291 std::string symbol = (*atomIt)->getType()->getSymbol();
292 if ((symbol[1] >= 'a') && (symbol[1] <= 'z'))
293 symbol[1] = (symbol[1] - 'a') + 'A';
294 atomInfo.set(PdbKey::element, symbol);
295 }
296
297 // finally save the line
298 saveLine(file, atomInfo);
299 }
300 for (size_t i = 0; i < MaxMol; ++i)
301 delete elementNo[i];
302 delete[] elementNo;
303
304 // write CONECTs
305 for (vector<const atom *>::const_iterator atomIt = AtomList.begin();
306 atomIt != AtomList.end(); atomIt++) {
307 writeNeighbors(file, 4, *atomIt);
308 }
309 }
310 // END
311 *file << "END" << endl;
312 }
313
314}
315
316/** Add default info, when new atom is added to World.
317 *
318 * @param id of atom
319 */
320void FormatParser< pdb >::AtomInserted(atomId_t id)
321{
322 //LOG(3, "FormatParser< pdb >::AtomInserted() - notified of atom " << id << "'s insertion.");
323 ASSERT(!isPresentadditionalAtomData(id),
324 "FormatParser< pdb >::AtomInserted() - additionalAtomData already present for newly added atom "
325 +toString(id)+".");
326 // don't insert here as this is our check whether we are in the first time step
327 //additionalAtomData.insert( std::make_pair(id, defaultAdditionalData) );
328}
329
330/** Remove additional AtomData info, when atom has been removed from World.
331 *
332 * @param id of atom
333 */
334void FormatParser< pdb >::AtomRemoved(atomId_t id)
335{
336 //LOG(3, "FormatParser< pdb >::AtomRemoved() - notified of atom " << id << "'s removal.");
337 std::map<const atomId_t, PdbAtomInfoContainer>::iterator iter = additionalAtomData.find(id);
338 // as we do not insert AtomData on AtomInserted, we cannot be assured of its presence
339// ASSERT(iter != additionalAtomData.end(),
340// "FormatParser< pdb >::AtomRemoved() - additionalAtomData is not present for atom "
341// +toString(id)+" to remove.");
342 if (iter != additionalAtomData.end()) {
343 additionalAtomData.erase(iter);
344 }
345}
346
347
348/** Checks whether there is an entry for the given atom's \a _id.
349 *
350 * @param _id atom's id we wish to check on
351 * @return true - entry present, false - only for atom's father or no entry
352 */
353bool FormatParser< pdb >::isPresentadditionalAtomData(const atomId_t _id) const
354{
355 std::map<const atomId_t, PdbAtomInfoContainer>::const_iterator iter = additionalAtomData.find(_id);
356 return (iter != additionalAtomData.end());
357}
358
359
360/** Either returns reference to present entry or creates new with default values.
361 *
362 * @param _atom atom whose entry we desire
363 * @return
364 */
365PdbAtomInfoContainer& FormatParser< pdb >::getadditionalAtomData(const atom * const _atom)
366{
367 if (additionalAtomData.find(_atom->getId()) != additionalAtomData.end()) {
368 } else if (additionalAtomData.find(_atom->getFather()->getId()) != additionalAtomData.end()) {
369 // use info from direct father
370 additionalAtomData[_atom->getId()] = additionalAtomData[_atom->getFather()->getId()];
371 } else if (additionalAtomData.find(_atom->GetTrueFather()->getId()) != additionalAtomData.end()) {
372 // use info from topmost father
373 additionalAtomData[_atom->getId()] = additionalAtomData[_atom->GetTrueFather()->getId()];
374 } else {
375 // create new entry use default values if nothing else is known
376 additionalAtomData[_atom->getId()] = defaultAdditionalData;
377 }
378 return additionalAtomData[_atom->getId()];
379}
380
381/** Tiny helper function to print a float with a most 8 digits.
382 *
383 * A few examples best give the picture:
384 * 1234.678
385 * 1.234
386 * 0.001
387 * 0.100
388 * 1234567.
389 * 123456.7
390 * -1234.56
391 *
392 * \param value
393 * \return string representation
394 */
395const std::string FormatParser< pdb >::printCoordinate(
396 const double value)
397{
398 size_t meaningful_bits=7; // one for decimal dot
399 if (value < 0) //one for the minus sign
400 --meaningful_bits;
401 // count digits before dot (without minus and round towards zero!)
402 int full = floor(fabs(value));
403 size_t bits_before_dot = 1;
404 {
405 int tmp = full;
406 for (;bits_before_dot < meaningful_bits;++bits_before_dot) {
407 // even if value is 0...somethingish, we still must start at one digit
408 tmp = tmp/10;
409 if (tmp == 0)
410 break;
411 }
412 }
413 // this fixes bits available after dot
414 const size_t bits_after_dot = std::min((int)meaningful_bits - (int)bits_before_dot, 3);
415 stringstream position;
416 if (bits_after_dot > 0) {
417 if (value < 0)
418 position << "-";
419 // truncate 999.9 to 999 and not to 1000! (hence, extra check!)
420 int remainder = round((abs(value)-full)*pow(10,bits_after_dot));
421 if (remainder >= pow(10,bits_after_dot)) {
422 remainder = 0;
423 ++full;
424 }
425 position << full << "." << setfill('0') << setw(bits_after_dot) << remainder;
426 if (bits_after_dot == 2)
427 ELOG(2, "PdbParser is writing coordinates with just a two decimal places.");
428 if (bits_after_dot == 1)
429 ELOG(1, "PdbParser is writing coordinates with just a single decimal places.");
430 } else {
431 ELOG(0, "PdbParser is writing coordinates without any decimal places.");
432 position << full << ".";
433 }
434 return position.str();
435}
436
437/**
438 * Writes one line of PDB-formatted data to the provided stream.
439 *
440 * \param stream where to write the line to
441 * \param *currentAtom the atom of which information should be written
442 * \param AtomNo serial number of atom
443 * \param *name name of atom, i.e. H01
444 * \param ResidueName Name of molecule
445 * \param ResidueNo number of residue
446 */
447void FormatParser< pdb >::saveLine(
448 ostream* file,
449 const PdbAtomInfoContainer &atomInfo)
450{
451 *file << setfill(' ') << left << setw(6)
452 << atomInfo.get<std::string>(PdbKey::token);
453 *file << setfill(' ') << right << setw(5)
454 << (atomInfo.get<int>(PdbKey::serial) % 100000); /* atom serial number */
455 *file << " "; /* char 12 is empty */
456 *file << setfill(' ') << left << setw(4)
457 << atomInfo.get<std::string>(PdbKey::name); /* atom name */
458 *file << setfill(' ') << left << setw(1)
459 << atomInfo.get<std::string>(PdbKey::altLoc); /* alternate location/conformation */
460 *file << setfill(' ') << left << setw(3)
461 << atomInfo.get<std::string>(PdbKey::resName); /* residue name */
462 *file << " "; /* char 21 is empty */
463 *file << setfill(' ') << left << setw(1)
464 << atomInfo.get<std::string>(PdbKey::chainID); /* chain identifier */
465 *file << setfill(' ') << left << setw(4)
466 << (atomInfo.get<int>(PdbKey::resSeq) % 10000); /* residue sequence number */
467 *file << setfill(' ') << left << setw(1)
468 << atomInfo.get<std::string>(PdbKey::iCode); /* iCode */
469 *file << " "; /* char 28-30 are empty */
470 // have the following operate on stringstreams such that format specifiers
471 // only act on these
472 for (size_t i=0;i<NDIM;++i) {
473 *file << setfill(' ') << right << setw(8)
474 << printCoordinate(atomInfo.get<double>(PositionEnumMap[i]));
475 }
476 {
477 stringstream occupancy;
478 occupancy << fixed << setprecision(2) << showpoint
479 << atomInfo.get<double>(PdbKey::occupancy); /* occupancy */
480 *file << setfill(' ') << right << setw(6) << occupancy.str();
481 }
482 {
483 stringstream tempFactor;
484 tempFactor << fixed << setprecision(2) << showpoint
485 << atomInfo.get<double>(PdbKey::tempFactor); /* temperature factor */
486 *file << setfill(' ') << right << setw(6) << tempFactor.str();
487 }
488 *file << " "; /* char 68-76 are empty */
489 *file << setfill(' ') << right << setw(2) << atomInfo.get<std::string>(PdbKey::element); /* element */
490 *file << setfill(' ') << right << setw(2) << atomInfo.get<int>(PdbKey::charge); /* charge */
491
492 *file << endl;
493}
494
495/**
496 * Writes the neighbor information of one atom to the provided stream.
497 *
498 * Note that ListOfBonds of WorldTime::CurrentTime is used.
499 *
500 * Also, we fill up the CONECT line to extend over 80 chars.
501 *
502 * \param *file where to write neighbor information to
503 * \param MaxnumberOfNeighbors of neighbors
504 * \param *currentAtom to the atom of which to take the neighbor information
505 */
506void FormatParser< pdb >::writeNeighbors(
507 ostream* file,
508 int MaxnumberOfNeighbors,
509 const atom * const currentAtom) {
510 int MaxNo = MaxnumberOfNeighbors;
511 int charsleft = 80;
512 const BondList & ListOfBonds = currentAtom->getListOfBonds();
513 if (!ListOfBonds.empty()) {
514 for(BondList::const_iterator currentBond = ListOfBonds.begin(); currentBond != ListOfBonds.end(); ++currentBond) {
515 if (MaxNo >= MaxnumberOfNeighbors) {
516 *file << "CONECT";
517 *file << setw(5) << getLocalId(currentAtom->getId());
518 charsleft = 80-6-5;
519 MaxNo = 0;
520 }
521 *file << setw(5) << getLocalId((*currentBond)->GetOtherAtom(currentAtom)->getId());
522 charsleft -= 5;
523 MaxNo++;
524 if (MaxNo == MaxnumberOfNeighbors) {
525 for (;charsleft > 0; charsleft--)
526 *file << ' ';
527 *file << "\n";
528 }
529 }
530 if (MaxNo != MaxnumberOfNeighbors) {
531 for (;charsleft > 0; charsleft--)
532 *file << ' ';
533 *file << "\n";
534 }
535 }
536}
537
538/** Either returns present atom with given id or a newly created one.
539 *
540 * @param id_string
541 * @return
542 */
543atom* FormatParser< pdb >::getAtomToParse(std::string id_string)
544{
545 // get the local ID
546 ConvertTo<int> toInt;
547 const unsigned int AtomID_local = toInt(id_string);
548 LOG(4, "INFO: Local id is "+toString(AtomID_local)+".");
549 // get the atomic ID if present
550 atom* newAtom = NULL;
551 if (getGlobalId(AtomID_local) != -1) {
552 const unsigned int AtomID_global = getGlobalId(AtomID_local);
553 LOG(4, "INFO: Global id present as " << AtomID_global << ".");
554 // check if atom exists
555 newAtom = World::getInstance().getAtom(AtomById(AtomID_global));
556 if (DoLog(5)) {
557 LOG(5, "INFO: Listing all present atoms with id.");
558 BOOST_FOREACH(const atom *_atom, const_cast<const World &>(World::getInstance()).getAllAtoms())
559 LOG(5, "INFO: " << *_atom << " with id " << _atom->getId());
560 }
561 }
562 // if not exists, create
563 if (newAtom == NULL) {
564 newAtom = World::getInstance().createAtom();
565 //const unsigned int AtomID_global = newAtom->getId();
566 LOG(4, "INFO: No association to global id present, creating atom.");
567 } else {
568 LOG(4, "INFO: Existing atom found: " << *newAtom << ".");
569 }
570 return newAtom;
571}
572
573/** read a line starting with key ATOM.
574 *
575 * We check for line's length and parse only up to this value.
576 *
577 * @param atomInfo container to put information in
578 * @param line line containing key ATOM
579 */
580void FormatParser< pdb >::readPdbAtomInfoContainer(PdbAtomInfoContainer &atomInfo, std::string &line) const
581{
582 const size_t length = line.length();
583 if (length < 80)
584 ELOG(2, "FormatParser< pdb >::readPdbAtomInfoContainer() - pdb is mal-formed, containing less than 80 chars!");
585 if (length >= 6) {
586 LOG(4,"INFO: Parsing token from "+line.substr(0,6)+".");
587 atomInfo.set(PdbKey::token, line.substr(0,6));
588 }
589 if (length >= 11) {
590 LOG(4,"INFO: Parsing serial from "+line.substr(6,5)+".");
591 atomInfo.set(PdbKey::serial, line.substr(6,5));
592 ASSERT(atomInfo.get<int>(PdbKey::serial) != 0,
593 "FormatParser< pdb >::readPdbAtomInfoContainer() - serial 0 is invalid (filler id for conect entries).");
594 }
595
596 if (length >= 16) {
597 LOG(4,"INFO: Parsing name from "+line.substr(12,4)+".");
598 atomInfo.set(PdbKey::name, line.substr(12,4));
599 }
600 if (length >= 17) {
601 LOG(4,"INFO: Parsing altLoc from "+line.substr(16,1)+".");
602 atomInfo.set(PdbKey::altLoc, line.substr(16,1));
603 }
604 if (length >= 20) {
605 LOG(4,"INFO: Parsing resName from "+line.substr(17,3)+".");
606 atomInfo.set(PdbKey::resName, line.substr(17,3));
607 }
608 if (length >= 22) {
609 LOG(4,"INFO: Parsing chainID from "+line.substr(21,1)+".");
610 atomInfo.set(PdbKey::chainID, line.substr(21,1));
611 }
612 if (length >= 26) {
613 LOG(4,"INFO: Parsing resSeq from "+line.substr(22,4)+".");
614 atomInfo.set(PdbKey::resSeq, line.substr(22,4));
615 }
616 if (length >= 27) {
617 LOG(4,"INFO: Parsing iCode from "+line.substr(26,1)+".");
618 atomInfo.set(PdbKey::iCode, line.substr(26,1));
619 }
620
621 if (length >= 60) {
622 LOG(4,"INFO: Parsing occupancy from "+line.substr(54,6)+".");
623 atomInfo.set(PdbKey::occupancy, line.substr(54,6));
624 }
625 if (length >= 66) {
626 LOG(4,"INFO: Parsing tempFactor from "+line.substr(60,6)+".");
627 atomInfo.set(PdbKey::tempFactor, line.substr(60,6));
628 }
629 if (length >= 80) {
630 LOG(4,"INFO: Parsing charge from "+line.substr(78,2)+".");
631 atomInfo.set(PdbKey::charge, line.substr(78,2));
632 }
633 if (length >= 78) {
634 LOG(4,"INFO: Parsing element from "+line.substr(76,2)+".");
635 atomInfo.set(PdbKey::element, line.substr(76,2));
636 } else {
637 LOG(4,"INFO: Trying to parse alternative element from name "+line.substr(12,4)+".");
638 atomInfo.set(PdbKey::element, line.substr(12,4));
639 }
640}
641
642/** Parse an ATOM line from a PDB file.
643 *
644 * Reads one data line of a pdstatus file and interprets it according to the
645 * specifications of the PDB 3.2 format: http://www.wwpdb.org/docs.html
646 *
647 * A new atom is created and filled with available information, non-
648 * standard information is placed in additionalAtomData at the atom's id.
649 *
650 * \param _step time step to use
651 * \param line to parse as an atom
652 * \param newmol molecule to add parsed atoms to
653 */
654void FormatParser< pdb >::readAtomDataLine(const unsigned int _step, std::string &line, molecule *newmol = NULL) {
655 vector<string>::iterator it;
656
657 atom* newAtom = getAtomToParse(line.substr(6,5));
658 LOG(3,"INFO: Parsing END entry or empty line.");
659 bool FirstTimestep = isPresentadditionalAtomData(newAtom->getId()) ? false : true;
660 ASSERT((FirstTimestep && (_step == 0)) || (!FirstTimestep && (_step !=0)),
661 "FormatParser< pdb >::readAtomDataLine() - additionalAtomData present though atom is newly parsed.");
662 if (FirstTimestep) {
663 LOG(3,"INFO: Parsing new atom "+toString(*newAtom)+" "+toString(newAtom->getId())+".");
664 } else {
665 LOG(3,"INFO: Parsing present atom "+toString(*newAtom)+".");
666 }
667 PdbAtomInfoContainer &atomInfo = getadditionalAtomData(newAtom);
668 LOG(4,"INFO: Information in container is "+toString(atomInfo)+".");
669
670 string word;
671 ConvertTo<size_t> toSize_t;
672
673 // check whether serial exists, if so, assign next available
674
675// LOG(2, "Split line:"
676// << line.substr(6,5) << "|"
677// << line.substr(12,4) << "|"
678// << line.substr(16,1) << "|"
679// << line.substr(17,3) << "|"
680// << line.substr(21,1) << "|"
681// << line.substr(22,4) << "|"
682// << line.substr(26,1) << "|"
683// << line.substr(30,8) << "|"
684// << line.substr(38,8) << "|"
685// << line.substr(46,8) << "|"
686// << line.substr(54,6) << "|"
687// << line.substr(60,6) << "|"
688// << line.substr(76,2) << "|"
689// << line.substr(78,2));
690
691 if (FirstTimestep) {
692 // first time step
693 // then fill info container
694 readPdbAtomInfoContainer(atomInfo, line);
695 // associate local with global id
696 associateLocaltoGlobalId(toSize_t(atomInfo.get<std::string>(PdbKey::serial)), newAtom->getId());
697 // set position
698 Vector tempVector;
699 LOG(4,"INFO: Parsing position from ("
700 +line.substr(30,8)+","
701 +line.substr(38,8)+","
702 +line.substr(46,8)+").");
703 PdbAtomInfoContainer::ScanKey(tempVector[0], line.substr(30,8));
704 PdbAtomInfoContainer::ScanKey(tempVector[1], line.substr(38,8));
705 PdbAtomInfoContainer::ScanKey(tempVector[2], line.substr(46,8));
706 newAtom->setPosition(tempVector);
707 // set element
708 std::string value = atomInfo.get<std::string>(PdbKey::element);
709 // make second character lower case if not
710 if ((value[1] >= 'A') && (value[1] <= 'Z'))
711 value[1] = (value[1] - 'A') + 'a';
712 const element *elem = World::getInstance().getPeriode()
713 ->FindElement(value);
714 ASSERT(elem != NULL,
715 "FormatParser< pdb >::readAtomDataLine() - element "+atomInfo.get<std::string>(PdbKey::element)+" is unknown!");
716 newAtom->setType(elem);
717
718 if (newmol != NULL)
719 newmol->AddAtom(newAtom);
720 } else {
721 // not first time step
722 // then parse into different container
723 PdbAtomInfoContainer consistencyInfo;
724 readPdbAtomInfoContainer(consistencyInfo, line);
725 // then check additional info for consistency
726 ASSERT(atomInfo.get<std::string>(PdbKey::token) == consistencyInfo.get<std::string>(PdbKey::token),
727 "FormatParser< pdb >::readAtomDataLine() - difference in token on multiple time step for atom with id "
728 +atomInfo.get<std::string>(PdbKey::serial)+"!");
729 ASSERT(atomInfo.get<std::string>(PdbKey::name) == consistencyInfo.get<std::string>(PdbKey::name),
730 "FormatParser< pdb >::readAtomDataLine() - difference in name on multiple time step for atom with id "
731 +atomInfo.get<std::string>(PdbKey::serial)+":"
732 +atomInfo.get<std::string>(PdbKey::name)+"!="
733 +consistencyInfo.get<std::string>(PdbKey::name)+".");
734 ASSERT(atomInfo.get<std::string>(PdbKey::altLoc) == consistencyInfo.get<std::string>(PdbKey::altLoc),
735 "FormatParser< pdb >::readAtomDataLine() - difference in altLoc on multiple time step for atom with id "
736 +atomInfo.get<std::string>(PdbKey::serial)+"!");
737 ASSERT(atomInfo.get<std::string>(PdbKey::resName) == consistencyInfo.get<std::string>(PdbKey::resName),
738 "FormatParser< pdb >::readAtomDataLine() - difference in resName on multiple time step for atom with id "
739 +atomInfo.get<std::string>(PdbKey::serial)+"!");
740 ASSERT(atomInfo.get<std::string>(PdbKey::chainID) == consistencyInfo.get<std::string>(PdbKey::chainID),
741 "FormatParser< pdb >::readAtomDataLine() - difference in chainID on multiple time step for atom with id "
742 +atomInfo.get<std::string>(PdbKey::serial)+"!");
743 ASSERT(atomInfo.get<std::string>(PdbKey::resSeq) == consistencyInfo.get<std::string>(PdbKey::resSeq),
744 "FormatParser< pdb >::readAtomDataLine() - difference in resSeq on multiple time step for atom with id "
745 +atomInfo.get<std::string>(PdbKey::serial)+"!");
746 ASSERT(atomInfo.get<std::string>(PdbKey::iCode) == consistencyInfo.get<std::string>(PdbKey::iCode),
747 "FormatParser< pdb >::readAtomDataLine() - difference in iCode on multiple time step for atom with id "
748 +atomInfo.get<std::string>(PdbKey::serial)+"!");
749 ASSERT(atomInfo.get<std::string>(PdbKey::occupancy) == consistencyInfo.get<std::string>(PdbKey::occupancy),
750 "FormatParser< pdb >::readAtomDataLine() - difference in occupancy on multiple time step for atom with id "
751 +atomInfo.get<std::string>(PdbKey::serial)+"!");
752 ASSERT(atomInfo.get<std::string>(PdbKey::tempFactor) == consistencyInfo.get<std::string>(PdbKey::tempFactor),
753 "FormatParser< pdb >::readAtomDataLine() - difference in tempFactor on multiple time step for atom with id "
754 +atomInfo.get<std::string>(PdbKey::serial)+"!");
755 ASSERT(atomInfo.get<std::string>(PdbKey::charge) == consistencyInfo.get<std::string>(PdbKey::charge),
756 "FormatParser< pdb >::readAtomDataLine() - difference in charge on multiple time step for atom with id "
757 +atomInfo.get<std::string>(PdbKey::serial)+"!");
758 ASSERT(atomInfo.get<std::string>(PdbKey::element) == consistencyInfo.get<std::string>(PdbKey::element),
759 "FormatParser< pdb >::readAtomDataLine() - difference in element on multiple time step for atom with id "
760 +atomInfo.get<std::string>(PdbKey::serial)+"!");
761 // and parse in trajectory
762 Vector tempVector;
763 LOG(4,"INFO: Parsing trajectory position from ("
764 +line.substr(30,8)+","
765 +line.substr(38,8)+","
766 +line.substr(46,8)+").");
767 PdbAtomInfoContainer::ScanKey(tempVector[0], line.substr(30,8));
768 PdbAtomInfoContainer::ScanKey(tempVector[1], line.substr(38,8));
769 PdbAtomInfoContainer::ScanKey(tempVector[2], line.substr(46,8));
770 LOG(4,"INFO: Adding trajectory point to time step "+toString(_step)+".");
771 // and set position at new time step
772 newAtom->setPositionAtStep(_step, tempVector);
773 }
774
775
776// printAtomInfo(newAtom);
777}
778
779/** Prints all PDB-specific information known about an atom.
780 *
781 */
782void FormatParser< pdb >::printAtomInfo(const atom * const newAtom) const
783{
784 const PdbAtomInfoContainer &atomInfo = additionalAtomData.at(newAtom->getId()); // operator[] const does not exist
785
786 LOG(1, "We know about atom " << newAtom->getId() << ":");
787 LOG(1, "\ttoken is " << atomInfo.get<std::string>(PdbKey::token));
788 LOG(1, "\tserial is " << atomInfo.get<int>(PdbKey::serial));
789 LOG(1, "\tname is " << atomInfo.get<std::string>(PdbKey::name));
790 LOG(1, "\taltLoc is " << atomInfo.get<std::string>(PdbKey::altLoc));
791 LOG(1, "\tresName is " << atomInfo.get<std::string>(PdbKey::resName));
792 LOG(1, "\tchainID is " << atomInfo.get<std::string>(PdbKey::chainID));
793 LOG(1, "\tresSeq is " << atomInfo.get<int>(PdbKey::resSeq));
794 LOG(1, "\tiCode is " << atomInfo.get<std::string>(PdbKey::iCode));
795 LOG(1, "\tX is " << atomInfo.get<double>(PdbKey::X));
796 LOG(1, "\tY is " << atomInfo.get<double>(PdbKey::Y));
797 LOG(1, "\tZ is " << atomInfo.get<double>(PdbKey::Z));
798 LOG(1, "\toccupancy is " << atomInfo.get<double>(PdbKey::occupancy));
799 LOG(1, "\ttempFactor is " << atomInfo.get<double>(PdbKey::tempFactor));
800 LOG(1, "\telement is '" << *(newAtom->getType()) << "'");
801 LOG(1, "\tcharge is " << atomInfo.get<int>(PdbKey::charge));
802}
803
804/**
805 * Reads neighbor information for one atom from the input.
806 *
807 * \param _step time step to use
808 * \param line to parse as an atom
809 */
810void FormatParser< pdb >::readNeighbors(const unsigned int _step, std::string &line)
811{
812 const size_t length = line.length();
813 std::list<size_t> ListOfNeighbors;
814 ConvertTo<size_t> toSize_t;
815
816 // obtain neighbours
817 // show split line for debugging
818 string output;
819 ASSERT(length >=16,
820 "FormatParser< pdb >::readNeighbors() - CONECT entry has not enough entries: "+line+"!");
821// output = "Split line:|";
822// output += line.substr(6,5) + "|";
823 const size_t id = toSize_t(line.substr(6,5));
824 for (size_t index = 11; index <= 26; index+=5) {
825 if (index+5 <= length) {
826 output += line.substr(index,5) + "|";
827 // search for digits
828 int otherid = -1;
829 PdbAtomInfoContainer::ScanKey(otherid, line.substr(index,5));
830 if (otherid > 0)
831 ListOfNeighbors.push_back(otherid);
832 else
833 ELOG(3, "FormatParser< pdb >::readNeighbors() - discarding CONECT entry with id 0.");
834 } else {
835 break;
836 }
837 }
838 LOG(4, output);
839
840 // add neighbours
841 atom * const _atom = World::getInstance().getAtom(AtomById(getGlobalId(id)));
842 LOG(2, "STATUS: Atom " << _atom->getId() << " gets " << ListOfNeighbors.size() << " more neighbours.");
843 for (std::list<size_t>::const_iterator iter = ListOfNeighbors.begin();
844 iter != ListOfNeighbors.end();
845 ++iter) {
846 atom * const _Otheratom = World::getInstance().getAtom(AtomById(getGlobalId(*iter)));
847 LOG(3, "INFO: Adding Bond (" << *_atom << "," << *_Otheratom << ")");
848 _atom->addBond(_step, _Otheratom);
849 }
850}
851
852bool FormatParser< pdb >::operator==(const FormatParser< pdb >& b) const
853{
854 bool status = true;
855 World::ConstAtomComposite atoms = const_cast<const World &>(World::getInstance()).
856 getAllAtoms();
857 for (World::ConstAtomComposite::const_iterator iter = atoms.begin(); iter != atoms.end(); ++iter) {
858 if ((additionalAtomData.find((*iter)->getId()) != additionalAtomData.end())
859 && (b.additionalAtomData.find((*iter)->getId()) != b.additionalAtomData.end())) {
860 const PdbAtomInfoContainer &atomInfo = additionalAtomData.at((*iter)->getId());
861 const PdbAtomInfoContainer &OtheratomInfo = b.additionalAtomData.at((*iter)->getId());
862
863 status = status && (atomInfo.get<std::string>(PdbKey::serial) == OtheratomInfo.get<std::string>(PdbKey::serial));
864 if (!status) ELOG(1, "Mismatch in serials!");
865 status = status && (atomInfo.get<std::string>(PdbKey::name) == OtheratomInfo.get<std::string>(PdbKey::name));
866 if (!status) ELOG(1, "Mismatch in names!");
867 status = status && (atomInfo.get<std::string>(PdbKey::altLoc) == OtheratomInfo.get<std::string>(PdbKey::altLoc));
868 if (!status) ELOG(1, "Mismatch in altLocs!");
869 status = status && (atomInfo.get<std::string>(PdbKey::resName) == OtheratomInfo.get<std::string>(PdbKey::resName));
870 if (!status) ELOG(1, "Mismatch in resNames!");
871 status = status && (atomInfo.get<std::string>(PdbKey::chainID) == OtheratomInfo.get<std::string>(PdbKey::chainID));
872 if (!status) ELOG(1, "Mismatch in chainIDs!");
873 status = status && (atomInfo.get<std::string>(PdbKey::resSeq) == OtheratomInfo.get<std::string>(PdbKey::resSeq));
874 if (!status) ELOG(1, "Mismatch in resSeqs!");
875 status = status && (atomInfo.get<std::string>(PdbKey::iCode) == OtheratomInfo.get<std::string>(PdbKey::iCode));
876 if (!status) ELOG(1, "Mismatch in iCodes!");
877 status = status && (atomInfo.get<std::string>(PdbKey::occupancy) == OtheratomInfo.get<std::string>(PdbKey::occupancy));
878 if (!status) ELOG(1, "Mismatch in occupancies!");
879 status = status && (atomInfo.get<std::string>(PdbKey::tempFactor) == OtheratomInfo.get<std::string>(PdbKey::tempFactor));
880 if (!status) ELOG(1, "Mismatch in tempFactors!");
881 status = status && (atomInfo.get<std::string>(PdbKey::charge) == OtheratomInfo.get<std::string>(PdbKey::charge));
882 if (!status) ELOG(1, "Mismatch in charges!");
883 }
884 }
885
886 return status;
887}
888
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