[ViewVC] Diff of: OpenMD/trunk/src/io/DumpReader.cpp

Comparing trunk/src/io/DumpReader.cpp (file contents):
Revision 1610 by gezelter, Fri Aug 12 14:37:25 2011 UTC vs.
Revision 1969 by gezelter, Wed Feb 26 14:14:50 2014 UTC

#	Line 35 \| Line 35
35		*
36		* [1] Meineke, et al., J. Comp. Chem. 26, 252-271 (2005).
37		* [2] Fennell & Gezelter, J. Chem. Phys. 124, 234104 (2006).
38	<	* [3] Sun, Lin & Gezelter, J. Chem. Phys. 128, 24107 (2008).
39	<	* [4] Vardeman & Gezelter, in progress (2009).
38	>	* [3] Sun, Lin & Gezelter, J. Chem. Phys. 128, 234107 (2008).
39	>	* [4] Kuang & Gezelter, J. Chem. Phys. 133, 164101 (2010).
40	>	* [5] Vardeman, Stocker & Gezelter, J. Chem. Theory Comput. 7, 834 (2011).
41		*/
42
43		#define _LARGEFILE_SOURCE64
44		#define _FILE_OFFSET_BITS 64
45
46	+	#ifdef IS_MPI
47	+	#include <mpi.h>
48	+	#endif
49	+
50		#include <sys/types.h>
51		#include <sys/stat.h>
52
#	Line 57 \| Line 62
62		#include "utils/simError.h"
63		#include "utils/MemoryUtils.hpp"
64		#include "utils/StringTokenizer.hpp"
65	+	#include "brains/Thermo.hpp"
66
61	–	#ifdef IS_MPI
67
63	–	#include <mpi.h>
64	–	#define TAKE_THIS_TAG_CHAR 0
65	–	#define TAKE_THIS_TAG_INT 1
66	–
67	–	#endif // is_mpi
68	–
69	–
68		namespace OpenMD {
69
70		DumpReader::DumpReader(SimInfo* info, const std::string& filename)
#	Line 77 \| Line 75 \| namespace OpenMD {
75		if (worldRank == 0) {
76		#endif
77
78	<	inFile_ = new std::ifstream(filename_.c_str());
78	>	inFile_ = new std::ifstream(filename_.c_str(),
79	>	ifstream::in \| ifstream::binary);
80
81		if (inFile_->fail()) {
82		sprintf(painCave.errMsg,
#	Line 129 \| Line 128 \| namespace OpenMD {
128		}
129
130		void DumpReader::scanFile(void) {
131	<	int lineNo = 0;
131	>
132		std::streampos prevPos;
133		std::streampos currPos;
134
#	Line 142 \| Line 141 \| namespace OpenMD {
141		prevPos = currPos;
142		bool foundOpenSnapshotTag = false;
143		bool foundClosedSnapshotTag = false;
144	+
145	+	int lineNo = 0;
146		while(inFile_->getline(buffer, bufferSize)) {
147		++lineNo;
148
#	Line 227 \| Line 228 \| namespace OpenMD {
228		needVel_ = false;
229		}
230
231	<	if (storageLayout & DataStorage::dslAmat \|\| storageLayout & DataStorage::dslElectroFrame) {
231	>	if (storageLayout & DataStorage::dslAmat \|\|
232	>	storageLayout & DataStorage::dslDipole \|\|
233	>	storageLayout & DataStorage::dslQuadrupole) {
234		needQuaternion_ = true;
235		} else {
236		needQuaternion_ = false;
#	Line 243 \| Line 246 \| namespace OpenMD {
246
247		if (needCOMprops_) {
248		Snapshot* s = info_->getSnapshotManager()->getCurrentSnapshot();
249	+	Thermo thermo(info_);
250		Vector3d com;
247	–	Vector3d comvel;
248	–	Vector3d comw;
249	–	if (needPos_ && needVel_){
250	–	info_->getComAll(com, comvel);
251	–	comw = info_->getAngularMomentum();
252	–	}else{
253	–	com = info_->getCom();
254	–	comvel = 0.0;
255	–	comw = 0.0;
256	–	}
257	–	s->setCOMprops(com, comvel, comw);
258	–	}
251
252	+	if (needPos_ && needVel_) {
253	+	Vector3d comvel;
254	+	Vector3d comw;
255	+	thermo.getComAll(com, comvel);
256	+	comw = thermo.getAngularMomentum();
257	+	} else {
258	+	com = thermo.getCom();
259	+	}
260	+	}
261		}
262
263		void DumpReader::readSet(int whichFrame) {
#	Line 289 \| Line 290 \| namespace OpenMD {
290
291		int sendBufferSize = sendBuffer.size();
292		MPI_Bcast(&sendBufferSize, 1, MPI_INT, masterNode, MPI_COMM_WORLD);
293	<	MPI_Bcast((void *)sendBuffer.c_str(), sendBufferSize, MPI_CHAR, masterNode, MPI_COMM_WORLD);
293	>	MPI_Bcast((void *)sendBuffer.c_str(), sendBufferSize,
294	>	MPI_CHAR, masterNode, MPI_COMM_WORLD);
295
296		sstream.str(sendBuffer);
297		} else {
298		int sendBufferSize;
299	<	MPI_Bcast(&sendBufferSize, 1, MPI_INT, masterNode, MPI_COMM_WORLD);
299	>	MPI_Bcast(&sendBufferSize, 1, MPI_INT, masterNode, MPI_COMM_WORLD);
300		char * recvBuffer = new char[sendBufferSize+1];
301		assert(recvBuffer);
302		recvBuffer[sendBufferSize] = '\0';
303	<	MPI_Bcast(recvBuffer, sendBufferSize, MPI_CHAR, masterNode, MPI_COMM_WORLD);
303	>	MPI_Bcast(recvBuffer, sendBufferSize, MPI_CHAR, masterNode, MPI_COMM_WORLD);
304		sstream.str(recvBuffer);
305		delete [] recvBuffer;
306		}
#	Line 324 \| Line 326 \| namespace OpenMD {
326
327		inputStream.getline(buffer, bufferSize);
328		line = buffer;
329	<	if (line.find("</Snapshot>") == std::string::npos) {
330	<	sprintf(painCave.errMsg,
331	<	"DumpReader Error: can not find </Snapshot>\n");
332	<	painCave.isFatal = 1;
333	<	simError();
334	<	}
335	<
329	>
330	>	if (line.find("<SiteData>") != std::string::npos) {
331	>	//read SiteData
332	>	readSiteData(inputStream);
333	>	} else {
334	>	if (line.find("</Snapshot>") == std::string::npos) {
335	>	sprintf(painCave.errMsg,
336	>	"DumpReader Error: can not find </Snapshot>\n");
337	>	painCave.isFatal = 1;
338	>	simError();
339	>	}
340	>	}
341		}
342
343		void DumpReader::parseDumpLine(const std::string& line) {
#	Line 350 \| Line 357 \| namespace OpenMD {
357
358		int index = tokenizer.nextTokenAsInt();
359
360	<	StuntDouble* integrableObject = info_->getIOIndexToIntegrableObject(index);
360	>	StuntDouble* sd = info_->getIOIndexToIntegrableObject(index);
361
362	<	if (integrableObject == NULL) {
362	>	if (sd == NULL) {
363		return;
364		}
365		std::string type = tokenizer.nextToken();
#	Line 372 \| Line 379 \| namespace OpenMD {
379		}
380		}
381
382	<	if (integrableObject->isDirectional()) {
382	>	if (sd->isDirectional()) {
383		if (needQuaternion_) {
384		found = type.find("q");
385		if (found == std::string::npos) {
#	Line 395 \| Line 402 \| namespace OpenMD {
402		pos[1] = tokenizer.nextTokenAsDouble();
403		pos[2] = tokenizer.nextTokenAsDouble();
404		if (needPos_) {
405	<	integrableObject->setPos(pos);
405	>	sd->setPos(pos);
406		}
407		break;
408		}
#	Line 405 \| Line 412 \| namespace OpenMD {
412		vel[1] = tokenizer.nextTokenAsDouble();
413		vel[2] = tokenizer.nextTokenAsDouble();
414		if (needVel_) {
415	<	integrableObject->setVel(vel);
415	>	sd->setVel(vel);
416		}
417		break;
418		}
419
420		case 'q' : {
421		Quat4d q;
422	<	if (integrableObject->isDirectional()) {
422	>	if (sd->isDirectional()) {
423
424		q[0] = tokenizer.nextTokenAsDouble();
425		q[1] = tokenizer.nextTokenAsDouble();
#	Line 431 \| Line 438 \| namespace OpenMD {
438
439		q.normalize();
440		if (needQuaternion_) {
441	<	integrableObject->setQ(q);
441	>	sd->setQ(q);
442		}
443		}
444		break;
445		}
446		case 'j' : {
447		Vector3d ji;
448	<	if (integrableObject->isDirectional()) {
448	>	if (sd->isDirectional()) {
449		ji[0] = tokenizer.nextTokenAsDouble();
450		ji[1] = tokenizer.nextTokenAsDouble();
451		ji[2] = tokenizer.nextTokenAsDouble();
452		if (needAngMom_) {
453	<	integrableObject->setJ(ji);
453	>	sd->setJ(ji);
454		}
455		}
456		break;
#	Line 454 \| Line 461 \| namespace OpenMD {
461		force[0] = tokenizer.nextTokenAsDouble();
462		force[1] = tokenizer.nextTokenAsDouble();
463		force[2] = tokenizer.nextTokenAsDouble();
464	<	integrableObject->setFrc(force);
464	>	sd->setFrc(force);
465		break;
466		}
467		case 't' : {
#	Line 463 \| Line 470 \| namespace OpenMD {
470		torque[0] = tokenizer.nextTokenAsDouble();
471		torque[1] = tokenizer.nextTokenAsDouble();
472		torque[2] = tokenizer.nextTokenAsDouble();
473	<	integrableObject->setTrq(torque);
473	>	sd->setTrq(torque);
474		break;
475		}
476		case 'u' : {
477
478		RealType particlePot;
479		particlePot = tokenizer.nextTokenAsDouble();
480	<	integrableObject->setParticlePot(particlePot);
480	>	sd->setParticlePot(particlePot);
481		break;
482		}
483	+	case 'c' : {
484	+
485	+	RealType flucQPos;
486	+	flucQPos = tokenizer.nextTokenAsDouble();
487	+	sd->setFlucQPos(flucQPos);
488	+	break;
489	+	}
490	+	case 'w' : {
491	+
492	+	RealType flucQVel;
493	+	flucQVel = tokenizer.nextTokenAsDouble();
494	+	sd->setFlucQVel(flucQVel);
495	+	break;
496	+	}
497	+	case 'g' : {
498	+
499	+	RealType flucQFrc;
500	+	flucQFrc = tokenizer.nextTokenAsDouble();
501	+	sd->setFlucQFrc(flucQFrc);
502	+	break;
503	+	}
504	+	case 'e' : {
505	+
506	+	Vector3d eField;
507	+	eField[0] = tokenizer.nextTokenAsDouble();
508	+	eField[1] = tokenizer.nextTokenAsDouble();
509	+	eField[2] = tokenizer.nextTokenAsDouble();
510	+	sd->setElectricField(eField);
511	+	break;
512	+	}
513		default: {
514		sprintf(painCave.errMsg,
515		"DumpReader Error: %s is an unrecognized type\n", type.c_str());
#	Line 483 \| Line 520 \| namespace OpenMD {
520
521		}
522		}
486	–
523		}
524
525
526	<	void DumpReader::readStuntDoubles(std::istream& inputStream) {
526	>	void DumpReader::parseSiteLine(const std::string& line) {
527
528	+	StringTokenizer tokenizer(line);
529	+	int nTokens;
530	+
531	+	nTokens = tokenizer.countTokens();
532	+
533	+	if (nTokens < 2) {
534	+	sprintf(painCave.errMsg,
535	+	"DumpReader Error: Not enough Tokens.\n%s\n", line.c_str());
536	+	painCave.isFatal = 1;
537	+	simError();
538	+	}
539	+
540	+	/**
541	+	* The first token is the global integrable object index.
542	+	*/
543	+
544	+	int index = tokenizer.nextTokenAsInt();
545	+	StuntDouble* sd = info_->getIOIndexToIntegrableObject(index);
546	+	if (sd == NULL) {
547	+	return;
548	+	}
549	+
550	+	/**
551	+	* Test to see if the next token is an integer or not. If not,
552	+	* we've got data on the integrable object itself. If there is an
553	+	* integer, we're parsing data for a site on a rigid body.
554	+	*/
555	+
556	+	std::string indexTest = tokenizer.peekNextToken();
557	+	std::istringstream i(indexTest);
558	+	int siteIndex;
559	+	if (i >> siteIndex) {
560	+	// chew up this token and parse as an int:
561	+	siteIndex = tokenizer.nextTokenAsInt();
562	+
563	+	if (sd->isRigidBody()) {
564	+	RigidBody* rb = static_cast<RigidBody*>(sd);
565	+	sd = rb->getAtoms()[siteIndex];
566	+	}
567	+	}
568	+
569	+	/**
570	+	* The next token contains information on what follows.
571	+	*/
572	+	std::string type = tokenizer.nextToken();
573	+	int size = type.size();
574	+
575	+	for(int i = 0; i < size; ++i) {
576	+	switch(type[i]) {
577	+
578	+	case 'u' : {
579	+
580	+	RealType particlePot;
581	+	particlePot = tokenizer.nextTokenAsDouble();
582	+	sd->setParticlePot(particlePot);
583	+	break;
584	+	}
585	+	case 'c' : {
586	+
587	+	RealType flucQPos;
588	+	flucQPos = tokenizer.nextTokenAsDouble();
589	+	sd->setFlucQPos(flucQPos);
590	+	break;
591	+	}
592	+	case 'w' : {
593	+
594	+	RealType flucQVel;
595	+	flucQVel = tokenizer.nextTokenAsDouble();
596	+	sd->setFlucQVel(flucQVel);
597	+	break;
598	+	}
599	+	case 'g' : {
600	+
601	+	RealType flucQFrc;
602	+	flucQFrc = tokenizer.nextTokenAsDouble();
603	+	sd->setFlucQFrc(flucQFrc);
604	+	break;
605	+	}
606	+	case 'e' : {
607	+
608	+	Vector3d eField;
609	+	eField[0] = tokenizer.nextTokenAsDouble();
610	+	eField[1] = tokenizer.nextTokenAsDouble();
611	+	eField[2] = tokenizer.nextTokenAsDouble();
612	+	sd->setElectricField(eField);
613	+	break;
614	+	}
615	+	default: {
616	+	sprintf(painCave.errMsg,
617	+	"DumpReader Error: %s is an unrecognized type\n", type.c_str());
618	+	painCave.isFatal = 1;
619	+	simError();
620	+	break;
621	+	}
622	+	}
623	+	}
624	+	}
625	+
626	+
627	+	void DumpReader::readStuntDoubles(std::istream& inputStream) {
628	+
629		inputStream.getline(buffer, bufferSize);
630		std::string line(buffer);
631
#	Line 511 \| Line 648 \| namespace OpenMD {
648
649		}
650
651	+	void DumpReader::readSiteData(std::istream& inputStream) {
652	+
653	+	std::string line(buffer);
654	+
655	+	// We already found the starting <SiteData> tag or we wouldn't be
656	+	// here, so just start parsing until we get to the ending
657	+	// </SiteData> tag:
658	+
659	+	while(inputStream.getline(buffer, bufferSize)) {
660	+	line = buffer;
661	+
662	+	if(line.find("</SiteData>") != std::string::npos) {
663	+	break;
664	+	}
665	+
666	+	parseSiteLine(line);
667	+	}
668	+
669	+	}
670	+
671		void DumpReader::readFrameProperties(std::istream& inputStream) {
672
673		Snapshot* s = info_->getSnapshotManager()->getCurrentSnapshot();
#	Line 556 \| Line 713 \| namespace OpenMD {
713		hmat(2, 2) = tokenizer.nextTokenAsDouble();
714		s->setHmat(hmat);
715		} else if (propertyName == "Thermostat") {
716	<	RealType chi = tokenizer.nextTokenAsDouble();
717	<	RealType integralOfChiDt = tokenizer.nextTokenAsDouble();
718	<	s->setChi(chi);
719	<	s->setIntegralOfChiDt(integralOfChiDt);
716	>	pair<RealType, RealType> thermostat;
717	>	thermostat.first = tokenizer.nextTokenAsDouble();
718	>	thermostat.second = tokenizer.nextTokenAsDouble();
719	>	s->setThermostat(thermostat);
720		} else if (propertyName == "Barostat") {
721		Mat3x3d eta;
722		eta(0, 0) = tokenizer.nextTokenAsDouble();
#	Line 571 \| Line 728 \| namespace OpenMD {
728		eta(2, 0) = tokenizer.nextTokenAsDouble();
729		eta(2, 1) = tokenizer.nextTokenAsDouble();
730		eta(2, 2) = tokenizer.nextTokenAsDouble();
731	<	s->setEta(eta);
731	>	s->setBarostat(eta);
732		} else {
733		sprintf(painCave.errMsg,
734		"DumpReader Error: %s is an invalid property in <FrameData>\n", propertyName.c_str());

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Comparing trunk/src/io/DumpReader.cpp (file contents): Revision 1610 by gezelter, Fri Aug 12 14:37:25 2011 UTC vs. Revision 1969 by gezelter, Wed Feb 26 14:14:50 2014 UTC

Diff Legend

Comparing trunk/src/io/DumpReader.cpp (file contents):
Revision 1610 by gezelter, Fri Aug 12 14:37:25 2011 UTC vs.
Revision 1969 by gezelter, Wed Feb 26 14:14:50 2014 UTC