[ViewVC] Diff of: OpenMD/trunk/src/brains/SimCreator.cpp

Comparing trunk/src/brains/SimCreator.cpp (file contents):
Revision 1796 by gezelter, Mon Sep 10 18:38:44 2012 UTC vs.
Revision 1938 by gezelter, Thu Oct 31 15:32:17 2013 UTC

#	Line 1 \| Line 1
1		/*
2	<	* copyright (c) 2005 The University of Notre Dame. All Rights Reserved.
2	>	* Copyright (c) 2005 The University of Notre Dame. All Rights Reserved.
3		*
4		* The University of Notre Dame grants you ("Licensee") a
5		* non-exclusive, royalty free, license to use, modify and
#	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).
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		*/
#	Line 44 \| Line 44
44		* @file SimCreator.cpp
45		* @author tlin
46		* @date 11/03/2004
47	–	* @time 13:51am
47		* @version 1.0
48		*/
49	+
50	+	#ifdef IS_MPI
51	+	#include "mpi.h"
52	+	#include "math/ParallelRandNumGen.hpp"
53	+	#endif
54	+
55		#include <exception>
56		#include <iostream>
57		#include <sstream>
#	Line 84 \| Line 89
89		#include "types/FixedChargeAdapter.hpp"
90		#include "types/FluctuatingChargeAdapter.hpp"
91
87	–	#ifdef IS_MPI
88	–	#include "mpi.h"
89	–	#include "math/ParallelRandNumGen.hpp"
90	–	#endif
92
93		namespace OpenMD {
94
#	Line 105 \| Line 106 \| namespace OpenMD {
106		MPI::COMM_WORLD.Bcast(&mdFileVersion, 1, MPI::INT, masterNode);
107		#endif
108		SimplePreprocessor preprocessor;
109	<	preprocessor.preprocess(rawMetaDataStream, filename, startOfMetaDataBlock,
109	<	ppStream);
109	>	preprocessor.preprocess(rawMetaDataStream, filename, startOfMetaDataBlock, ppStream);
110
111		#ifdef IS_MPI
112		//brocasting the stream size
113		streamSize = ppStream.str().size() +1;
114		MPI::COMM_WORLD.Bcast(&streamSize, 1, MPI::LONG, masterNode);
115	<	MPI::COMM_WORLD.Bcast(static_cast<void>(const_cast<char>(ppStream.str().c_str())),
116	<	streamSize, MPI::CHAR, masterNode);
117	<
115	>	MPI::COMM_WORLD.Bcast(static_cast<void>(const_cast<char>(ppStream.str().c_str())), streamSize, MPI::CHAR, masterNode);
116	>
117		} else {
119	–
118		MPI::COMM_WORLD.Bcast(&mdFileVersion, 1, MPI::INT, masterNode);
119
120		//get stream size
#	Line 130 \| Line 128 \| namespace OpenMD {
128
129		ppStream.str(buf);
130		delete [] buf;
133	–
131		}
132		#endif
133		// Create a scanner that reads from the input stream
#	Line 255 \| Line 252 \| namespace OpenMD {
252		std::string mdRawData;
253		int metaDataBlockStart = -1;
254		int metaDataBlockEnd = -1;
255	<	int i;
256	<	streamoff mdOffset(0);
255	>	int i, j;
256	>	streamoff mdOffset;
257		int mdFileVersion;
258
259	+	// Create a string for embedding the version information in the MetaData
260	+	std::string version;
261	+	version.assign("## Last run using OpenMD Version: ");
262	+	version.append(OPENMD_VERSION_MAJOR);
263	+	version.append(".");
264	+	version.append(OPENMD_VERSION_MINOR);
265
266	+	std::string svnrev;
267	+	//convert a macro from compiler to a string in c++
268	+	STR_DEFINE(svnrev, SVN_REV );
269	+	version.append(" Revision: ");
270	+	// If there's no SVN revision, just call this the RELEASE revision.
271	+	if (!svnrev.empty()) {
272	+	version.append(svnrev);
273	+	} else {
274	+	version.append("RELEASE");
275	+	}
276	+
277		#ifdef IS_MPI
278		const int masterNode = 0;
279		if (worldRank == masterNode) {
#	Line 354 \| Line 368 \| namespace OpenMD {
368
369		mdRawData.clear();
370
371	+	bool foundVersion = false;
372	+
373		for (int i = 0; i < metaDataBlockEnd - metaDataBlockStart - 1; ++i) {
374		mdFile_.getline(buffer, bufferSize);
375	<	mdRawData += buffer;
375	>	std::string line = trimLeftCopy(buffer);
376	>	j = CaseInsensitiveFind(line, "## Last run using OpenMD Version");
377	>	if (static_cast<size_t>(j) != string::npos) {
378	>	foundVersion = true;
379	>	mdRawData += version;
380	>	} else {
381	>	mdRawData += buffer;
382	>	}
383		mdRawData += "\n";
384		}
385	<
385	>
386	>	if (!foundVersion) mdRawData += version + "\n";
387	>
388		mdFile_.close();
389
390		#ifdef IS_MPI
#	Line 487 \| Line 512 \| namespace OpenMD {
512
513		#ifdef IS_MPI
514		void SimCreator::divideMolecules(SimInfo *info) {
490	–	RealType numerator;
491	–	RealType denominator;
492	–	RealType precast;
493	–	RealType x;
494	–	RealType y;
515		RealType a;
496	–	int old_atoms;
497	–	int add_atoms;
498	–	int new_atoms;
499	–	int nTarget;
500	–	int done;
501	–	int i;
502	–	int loops;
503	–	int which_proc;
516		int nProcessors;
517		std::vector<int> atomsPerProc;
518		int nGlobalMols = info->getNGlobalMolecules();
519	<	std::vector<int> molToProcMap(nGlobalMols, -1); // default to an error condition:
519	>	std::vector<int> molToProcMap(nGlobalMols, -1); // default to an
520	>	// error
521	>	// condition:
522
523		nProcessors = MPI::COMM_WORLD.Get_size();
524
#	Line 515 \| Line 529 \| namespace OpenMD {
529		"\tthe number of molecules. This will not result in a \n"
530		"\tusable division of atoms for force decomposition.\n"
531		"\tEither try a smaller number of processors, or run the\n"
532	<	"\tsingle-processor version of OpenMD.\n", nProcessors, nGlobalMols);
532	>	"\tsingle-processor version of OpenMD.\n", nProcessors,
533	>	nGlobalMols);
534
535		painCave.isFatal = 1;
536		simError();
537		}
538
524	–	int seedValue;
539		Globals * simParams = info->getSimParams();
540	<	SeqRandNumGen* myRandom; //divide labor does not need Parallel random number generator
540	>	SeqRandNumGen* myRandom; //divide labor does not need Parallel
541	>	//random number generator
542		if (simParams->haveSeed()) {
543	<	seedValue = simParams->getSeed();
543	>	int seedValue = simParams->getSeed();
544		myRandom = new SeqRandNumGen(seedValue);
545		}else {
546		myRandom = new SeqRandNumGen();
#	Line 538 \| Line 553 \| namespace OpenMD {
553		atomsPerProc.insert(atomsPerProc.end(), nProcessors, 0);
554
555		if (worldRank == 0) {
556	<	numerator = info->getNGlobalAtoms();
557	<	denominator = nProcessors;
558	<	precast = numerator / denominator;
559	<	nTarget = (int)(precast + 0.5);
556	>	RealType numerator = info->getNGlobalAtoms();
557	>	RealType denominator = nProcessors;
558	>	RealType precast = numerator / denominator;
559	>	int nTarget = (int)(precast + 0.5);
560
561	<	for(i = 0; i < nGlobalMols; i++) {
562	<	done = 0;
563	<	loops = 0;
561	>	for(int i = 0; i < nGlobalMols; i++) {
562	>
563	>	int done = 0;
564	>	int loops = 0;
565
566		while (!done) {
567		loops++;
568
569		// Pick a processor at random
570
571	<	which_proc = (int) (myRandom->rand() * nProcessors);
571	>	int which_proc = (int) (myRandom->rand() * nProcessors);
572
573		//get the molecule stamp first
574		int stampId = info->getMoleculeStampId(i);
575		MoleculeStamp * moleculeStamp = info->getMoleculeStamp(stampId);
576
577		// How many atoms does this processor have so far?
578	<	old_atoms = atomsPerProc[which_proc];
579	<	add_atoms = moleculeStamp->getNAtoms();
580	<	new_atoms = old_atoms + add_atoms;
578	>	int old_atoms = atomsPerProc[which_proc];
579	>	int add_atoms = moleculeStamp->getNAtoms();
580	>	int new_atoms = old_atoms + add_atoms;
581
582		// If we've been through this loop too many times, we need
583		// to just give up and assign the molecule to this processor
584		// and be done with it.
585
586		if (loops > 100) {
587	+
588		sprintf(painCave.errMsg,
589	<	"I've tried 100 times to assign molecule %d to a "
590	<	" processor, but can't find a good spot.\n"
591	<	"I'm assigning it at random to processor %d.\n",
589	>	"There have been 100 attempts to assign molecule %d to an\n"
590	>	"\tunderworked processor, but there's no good place to\n"
591	>	"\tleave it. OpenMD is assigning it at random to processor %d.\n",
592		i, which_proc);
593	<
593	>
594		painCave.isFatal = 0;
595	+	painCave.severity = OPENMD_INFO;
596		simError();
597
598		molToProcMap[i] = which_proc;
#	Line 603 \| Line 621 \| namespace OpenMD {
621		// Pacc(x) = exp(- a * x)
622		// where a = penalty / (average atoms per molecule)
623
624	<	x = (RealType)(new_atoms - nTarget);
625	<	y = myRandom->rand();
624	>	RealType x = (RealType)(new_atoms - nTarget);
625	>	RealType y = myRandom->rand();
626
627		if (y < exp(- a * x)) {
628		molToProcMap[i] = which_proc;
#	Line 619 \| Line 637 \| namespace OpenMD {
637		}
638
639		delete myRandom;
640	<
640	>
641		// Spray out this nonsense to all other processors:
642		MPI::COMM_WORLD.Bcast(&molToProcMap[0], nGlobalMols, MPI::INT, 0);
643		} else {
644
645		// Listen to your marching orders from processor 0:
646		MPI::COMM_WORLD.Bcast(&molToProcMap[0], nGlobalMols, MPI::INT, 0);
647	+
648		}
649
650		info->setMolToProcMap(molToProcMap);
#	Line 672 \| Line 691 \| namespace OpenMD {
691		set<AtomType*>::iterator i;
692		bool hasDirectionalAtoms = false;
693		bool hasFixedCharge = false;
694	<	bool hasMultipoles = false;
694	>	bool hasDipoles = false;
695	>	bool hasQuadrupoles = false;
696		bool hasPolarizable = false;
697		bool hasFluctuatingCharge = false;
698		bool hasMetallic = false;
#	Line 694 \| Line 714 \| namespace OpenMD {
714		if (da.isDirectional()){
715		hasDirectionalAtoms = true;
716		}
717	<	if (ma.isMultipole()){
718	<	hasMultipoles = true;
717	>	if (ma.isDipole()){
718	>	hasDipoles = true;
719		}
720	+	if (ma.isQuadrupole()){
721	+	hasQuadrupoles = true;
722	+	}
723		if (ea.isEAM() \|\| sca.isSuttonChen()){
724		hasMetallic = true;
725		}
#	Line 720 \| Line 743 \| namespace OpenMD {
743		storageLayout \|= DataStorage::dslTorque;
744		}
745		}
746	<	if (hasMultipoles) {
747	<	storageLayout \|= DataStorage::dslElectroFrame;
746	>	if (hasDipoles) {
747	>	storageLayout \|= DataStorage::dslDipole;
748		}
749	+	if (hasQuadrupoles) {
750	+	storageLayout \|= DataStorage::dslQuadrupole;
751	+	}
752		if (hasFixedCharge \|\| hasFluctuatingCharge) {
753		storageLayout \|= DataStorage::dslSkippedCharge;
754		}
#	Line 757 \| Line 783 \| namespace OpenMD {
783		}
784		}
785
786	<	if (simParams->getOutputElectricField()) {
786	>	if (simParams->getOutputElectricField() \| simParams->haveElectricField()) {
787		storageLayout \|= DataStorage::dslElectricField;
788		}
789	+
790		if (simParams->getOutputFluctuatingCharges()) {
791		storageLayout \|= DataStorage::dslFlucQPosition;
792		storageLayout \|= DataStorage::dslFlucQVelocity;
793		storageLayout \|= DataStorage::dslFlucQForce;
794		}
795
796	+	info->setStorageLayout(storageLayout);
797	+
798		return storageLayout;
799		}
800
#	Line 783 \| Line 812 \| namespace OpenMD {
812		int beginRigidBodyIndex;
813		int beginCutoffGroupIndex;
814		int nGlobalAtoms = info->getNGlobalAtoms();
815	+	int nGlobalRigidBodies = info->getNGlobalRigidBodies();
816
817		beginAtomIndex = 0;
818		//rigidbody's index begins right after atom's
#	Line 858 \| Line 888 \| namespace OpenMD {
888		#endif
889
890		//fill molMembership
891	<	std::vector<int> globalMolMembership(info->getNGlobalAtoms(), 0);
891	>	std::vector<int> globalMolMembership(info->getNGlobalAtoms() +
892	>	info->getNGlobalRigidBodies(), 0);
893
894	<	for(mol = info->beginMolecule(mi); mol != NULL; mol = info->nextMolecule(mi)) {
894	>	for(mol = info->beginMolecule(mi); mol != NULL;
895	>	mol = info->nextMolecule(mi)) {
896		for(atom = mol->beginAtom(ai); atom != NULL; atom = mol->nextAtom(ai)) {
897		globalMolMembership[atom->getGlobalIndex()] = mol->getGlobalIndex();
898		}
899	+	for (rb = mol->beginRigidBody(ri); rb != NULL;
900	+	rb = mol->nextRigidBody(ri)) {
901	+	globalMolMembership[rb->getGlobalIndex()] = mol->getGlobalIndex();
902	+	}
903		}
904
905		#ifdef IS_MPI
906	<	std::vector<int> tmpMolMembership(info->getNGlobalAtoms(), 0);
906	>	std::vector<int> tmpMolMembership(info->getNGlobalAtoms() +
907	>	info->getNGlobalRigidBodies(), 0);
908		MPI::COMM_WORLD.Allreduce(&globalMolMembership[0], &tmpMolMembership[0],
909	<	nGlobalAtoms,
909	>	nGlobalAtoms + nGlobalRigidBodies,
910		MPI::INT, MPI::SUM);
911
912		info->setGlobalMolMembership(tmpMolMembership);
#	Line 881 \| Line 918 \| namespace OpenMD {
918		// here the molecules are listed by their global indices.
919
920		std::vector<int> nIOPerMol(info->getNGlobalMolecules(), 0);
921	<	for (mol = info->beginMolecule(mi); mol != NULL; mol = info->nextMolecule(mi)) {
921	>	for (mol = info->beginMolecule(mi); mol != NULL;
922	>	mol = info->nextMolecule(mi)) {
923		nIOPerMol[mol->getGlobalIndex()] = mol->getNIntegrableObjects();
924		}
925
#	Line 902 \| Line 940 \| namespace OpenMD {
940		}
941
942		std::vector<StuntDouble> IOIndexToIntegrableObject(info->getNGlobalIntegrableObjects(), (StuntDouble)NULL);
943	<	for (mol = info->beginMolecule(mi); mol != NULL; mol = info->nextMolecule(mi)) {
943	>	for (mol = info->beginMolecule(mi); mol != NULL;
944	>	mol = info->nextMolecule(mi)) {
945		int myGlobalIndex = mol->getGlobalIndex();
946		int globalIO = startingIOIndexForMol[myGlobalIndex];
947		for (StuntDouble* sd = mol->beginIntegrableObject(ioi); sd != NULL;
#	Line 918 \| Line 957 \| namespace OpenMD {
957		}
958
959		void SimCreator::loadCoordinates(SimInfo* info, const std::string& mdFileName) {
960	<
960	>
961		DumpReader reader(info, mdFileName);
962		int nframes = reader.getNFrames();
963	<
963	>
964		if (nframes > 0) {
965		reader.readFrame(nframes - 1);
966		} else {

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Comparing trunk/src/brains/SimCreator.cpp (file contents): Revision 1796 by gezelter, Mon Sep 10 18:38:44 2012 UTC vs. Revision 1938 by gezelter, Thu Oct 31 15:32:17 2013 UTC

Diff Legend

Comparing trunk/src/brains/SimCreator.cpp (file contents):
Revision 1796 by gezelter, Mon Sep 10 18:38:44 2012 UTC vs.
Revision 1938 by gezelter, Thu Oct 31 15:32:17 2013 UTC