[ViewVC] Diff of: OpenMD/trunk/src/rnemd/RNEMD.cpp

Comparing:
branches/development/src/rnemd/RNEMD.cpp (file contents), Revision 1774 by gezelter, Wed Aug 8 16:03:02 2012 UTC vs.
trunk/src/rnemd/RNEMD.cpp (file contents), Revision 1793 by gezelter, Fri Aug 31 21:16:10 2012 UTC

#	Line 53 \| Line 53
53		#include <mpi.h>
54		#endif
55
56	+	#ifdef _MSC_VER
57	+	#define isnan(x) _isnan((x))
58	+	#define isinf(x) (!_finite(x) && !_isnan(x))
59	+	#endif
60	+
61		#define HONKING_LARGE_VALUE 1.0e10
62
63		using namespace std;
#	Line 65 \| Line 70 \| namespace OpenMD {
70		failTrialCount_ = 0;
71		failRootCount_ = 0;
72
68	–	int seedValue;
73		Globals * simParams = info->getSimParams();
74		RNEMDParameters* rnemdParams = simParams->getRNEMDParameters();
75
76	+	doRNEMD_ = rnemdParams->getUseRNEMD();
77	+	if (!doRNEMD_) return;
78	+
79		stringToMethod_["Swap"] = rnemdSwap;
80		stringToMethod_["NIVS"] = rnemdNIVS;
81		stringToMethod_["VSS"] = rnemdVSS;
#	Line 77 \| Line 84 \| namespace OpenMD {
84		stringToFluxType_["Px"] = rnemdPx;
85		stringToFluxType_["Py"] = rnemdPy;
86		stringToFluxType_["Pz"] = rnemdPz;
87	+	stringToFluxType_["Pvector"] = rnemdPvector;
88		stringToFluxType_["KE+Px"] = rnemdKePx;
89		stringToFluxType_["KE+Py"] = rnemdKePy;
90		stringToFluxType_["KE+Pvector"] = rnemdKePvector;
#	Line 98 \| Line 106 \| namespace OpenMD {
106		sprintf(painCave.errMsg,
107		"RNEMD: No fluxType was set in the md file. This parameter,\n"
108		"\twhich must be one of the following values:\n"
109	<	"\tKE, Px, Py, Pz, KE+Px, KE+Py, KE+Pvector, must be set to\n"
110	<	"\tuse RNEMD\n");
109	>	"\tKE, Px, Py, Pz, Pvector, KE+Px, KE+Py, KE+Pvector\n"
110	>	"\tmust be set to use RNEMD\n");
111		painCave.isFatal = 1;
112		painCave.severity = OPENMD_ERROR;
113		simError();
#	Line 197 \| Line 205 \| namespace OpenMD {
205		break;
206		case rnemdPvector:
207		hasCorrectFlux = hasMomentumFluxVector;
208	+	break;
209		case rnemdKePx:
210		case rnemdKePy:
211		hasCorrectFlux = hasMomentumFlux && hasKineticFlux;
#	Line 224 \| Line 233 \| namespace OpenMD {
233		}
234		if (!hasCorrectFlux) {
235		sprintf(painCave.errMsg,
236	<	"RNEMD: The current method,\n"
228	<	"\t%s, and flux type %s\n"
236	>	"RNEMD: The current method, %s, and flux type, %s,\n"
237		"\tdid not have the correct flux value specified. Options\n"
238		"\tinclude: kineticFlux, momentumFlux, and momentumFluxVector\n",
239		methStr.c_str(), fluxStr.c_str());
#	Line 235 \| Line 243 \| namespace OpenMD {
243		}
244
245		if (hasKineticFlux) {
246	<	kineticFlux_ = rnemdParams->getKineticFlux();
246	>	// convert the kcal / mol / Angstroms^2 / fs values in the md file
247	>	// into amu / fs^3:
248	>	kineticFlux_ = rnemdParams->getKineticFlux()
249	>	* PhysicalConstants::energyConvert;
250		} else {
251		kineticFlux_ = 0.0;
252		}
#	Line 298 \| Line 309 \| namespace OpenMD {
309		z.title = "Z";
310		z.dataType = "RealType";
311		z.accumulator.reserve(nBins_);
312	<	for (unsigned int i = 0; i < nBins_; i++)
312	>	for (int i = 0; i < nBins_; i++)
313		z.accumulator.push_back( new Accumulator() );
314		data_[Z] = z;
315		outputMap_["Z"] = Z;
#	Line 308 \| Line 319 \| namespace OpenMD {
319		temperature.title = "Temperature";
320		temperature.dataType = "RealType";
321		temperature.accumulator.reserve(nBins_);
322	<	for (unsigned int i = 0; i < nBins_; i++)
322	>	for (int i = 0; i < nBins_; i++)
323		temperature.accumulator.push_back( new Accumulator() );
324		data_[TEMPERATURE] = temperature;
325		outputMap_["TEMPERATURE"] = TEMPERATURE;
326
327		OutputData velocity;
328	<	velocity.units = "amu/fs";
328	>	velocity.units = "angstroms/fs";
329		velocity.title = "Velocity";
330		velocity.dataType = "Vector3d";
331		velocity.accumulator.reserve(nBins_);
332	<	for (unsigned int i = 0; i < nBins_; i++)
332	>	for (int i = 0; i < nBins_; i++)
333		velocity.accumulator.push_back( new VectorAccumulator() );
334		data_[VELOCITY] = velocity;
335		outputMap_["VELOCITY"] = VELOCITY;
#	Line 328 \| Line 339 \| namespace OpenMD {
339		density.title = "Density";
340		density.dataType = "RealType";
341		density.accumulator.reserve(nBins_);
342	<	for (unsigned int i = 0; i < nBins_; i++)
342	>	for (int i = 0; i < nBins_; i++)
343		density.accumulator.push_back( new Accumulator() );
344		data_[DENSITY] = density;
345		outputMap_["DENSITY"] = DENSITY;
#	Line 410 \| Line 421 \| namespace OpenMD {
421		}
422
423		RNEMD::~RNEMD() {
424	<
424	>	if (!doRNEMD_) return;
425		#ifdef IS_MPI
426		if (worldRank == 0) {
427		#endif
#	Line 432 \| Line 443 \| namespace OpenMD {
443		}
444
445		void RNEMD::doSwap() {
446	<
446	>	if (!doRNEMD_) return;
447		Snapshot* currentSnap_ = info_->getSnapshotManager()->getCurrentSnapshot();
448		Mat3x3d hmat = currentSnap_->getHmat();
449
#	Line 440 \| Line 451 \| namespace OpenMD {
451
452		int selei;
453		StuntDouble* sd;
443	–	int idx;
454
455		RealType min_val;
456		bool min_found = false;
#	Line 453 \| Line 463 \| namespace OpenMD {
463		for (sd = seleMan_.beginSelected(selei); sd != NULL;
464		sd = seleMan_.nextSelected(selei)) {
465
456	–	idx = sd->getLocalIndex();
457	–
466		Vector3d pos = sd->getPos();
467
468		// wrap the stuntdouble's position back into the box:
#	Line 491 \| Line 499 \| namespace OpenMD {
499		+ angMom[2]*angMom[2]/I(2, 2);
500		}
501		} //angular momenta exchange enabled
494	–	//energyConvert temporarily disabled
495	–	//make kineticExchange_ comparable between swap & scale
496	–	//value = value * 0.5 / PhysicalConstants::energyConvert;
502		value *= 0.5;
503		break;
504		case rnemdPx :
#	Line 535 \| Line 540 \| namespace OpenMD {
540		}
541		}
542
543	<	#ifdef IS_MPI
544	<	int nProc, worldRank;
543	>	#ifdef IS_MPI
544	>	int worldRank = MPI::COMM_WORLD.Get_rank();
545
541	–	nProc = MPI::COMM_WORLD.Get_size();
542	–	worldRank = MPI::COMM_WORLD.Get_rank();
543	–
546		bool my_min_found = min_found;
547		bool my_max_found = max_found;
548
#	Line 731 \| Line 733 \| namespace OpenMD {
733
734		switch(rnemdFluxType_) {
735		case rnemdKE:
734	–	cerr << "KE\n";
736		kineticExchange_ += max_val - min_val;
737		break;
738		case rnemdPx:
#	Line 744 \| Line 745 \| namespace OpenMD {
745		momentumExchange_.z() += max_val - min_val;
746		break;
747		default:
747	–	cerr << "default\n";
748		break;
749		}
750		} else {
#	Line 767 \| Line 767 \| namespace OpenMD {
767		}
768
769		void RNEMD::doNIVS() {
770	<
770	>	if (!doRNEMD_) return;
771		Snapshot* currentSnap_ = info_->getSnapshotManager()->getCurrentSnapshot();
772		Mat3x3d hmat = currentSnap_->getHmat();
773
#	Line 775 \| Line 775 \| namespace OpenMD {
775
776		int selei;
777		StuntDouble* sd;
778	–	int idx;
778
779		vector<StuntDouble*> hotBin, coldBin;
780
#	Line 796 \| Line 795 \| namespace OpenMD {
795
796		for (sd = seleMan_.beginSelected(selei); sd != NULL;
797		sd = seleMan_.nextSelected(selei)) {
799	–
800	–	idx = sd->getLocalIndex();
798
799		Vector3d pos = sd->getPos();
800
#	Line 1216 \| Line 1213 \| namespace OpenMD {
1213		}
1214
1215		void RNEMD::doVSS() {
1216	<
1216	>	if (!doRNEMD_) return;
1217		Snapshot* currentSnap_ = info_->getSnapshotManager()->getCurrentSnapshot();
1218		RealType time = currentSnap_->getTime();
1219		Mat3x3d hmat = currentSnap_->getHmat();
#	Line 1225 \| Line 1222 \| namespace OpenMD {
1222
1223		int selei;
1224		StuntDouble* sd;
1228	–	int idx;
1225
1226		vector<StuntDouble*> hotBin, coldBin;
1227
#	Line 1240 \| Line 1236 \| namespace OpenMD {
1236		for (sd = seleMan_.beginSelected(selei); sd != NULL;
1237		sd = seleMan_.nextSelected(selei)) {
1238
1243	–	idx = sd->getLocalIndex();
1244	–
1239		Vector3d pos = sd->getPos();
1240
1241		// wrap the stuntdouble's position back into the box:
#	Line 1394 \| Line 1388 \| namespace OpenMD {
1388		}
1389
1390		void RNEMD::doRNEMD() {
1391	<
1391	>	if (!doRNEMD_) return;
1392		trialCount_++;
1393		switch(rnemdMethod_) {
1394		case rnemdSwap:
#	Line 1413 \| Line 1407 \| namespace OpenMD {
1407		}
1408
1409		void RNEMD::collectData() {
1410	<
1410	>	if (!doRNEMD_) return;
1411		Snapshot* currentSnap_ = info_->getSnapshotManager()->getCurrentSnapshot();
1412		Mat3x3d hmat = currentSnap_->getHmat();
1413
#	Line 1423 \| Line 1417 \| namespace OpenMD {
1417
1418		int selei;
1419		StuntDouble* sd;
1426	–	int idx;
1420
1421		vector<RealType> binMass(nBins_, 0.0);
1422		vector<RealType> binPx(nBins_, 0.0);
#	Line 1448 \| Line 1441 \| namespace OpenMD {
1441		sd = mol->nextIntegrableObject(iiter))
1442		*/
1443		for (sd = seleMan_.beginSelected(selei); sd != NULL;
1444	<	sd = seleMan_.nextSelected(selei)) {
1452	<
1453	<	idx = sd->getLocalIndex();
1444	>	sd = seleMan_.nextSelected(selei)) {
1445
1446		Vector3d pos = sd->getPos();
1447
#	Line 1524 \| Line 1515 \| namespace OpenMD {
1515		vel.x() = binPx[i] / binMass[i];
1516		vel.y() = binPy[i] / binMass[i];
1517		vel.z() = binPz[i] / binMass[i];
1518	<	den = binCount[i] * nBins_ / currentSnap_->getVolume();
1518	>
1519	>	den = binMass[i] * nBins_ * PhysicalConstants::densityConvert
1520	>	/ currentSnap_->getVolume() ;
1521	>
1522		temp = 2.0 * binKE[i] / (binDOF[i] * PhysicalConstants::kb *
1523		PhysicalConstants::energyConvert);
1524
#	Line 1532 \| Line 1526 \| namespace OpenMD {
1526		if(outputMask_[j]) {
1527		switch(j) {
1528		case Z:
1529	<	(data_[j].accumulator[i])->add(z);
1529	>	dynamic_cast<Accumulator *>(data_[j].accumulator[i])->add(z);
1530		break;
1531		case TEMPERATURE:
1532	<	data_[j].accumulator[i]->add(temp);
1532	>	dynamic_cast<Accumulator *>(data_[j].accumulator[i])->add(temp);
1533		break;
1534		case VELOCITY:
1535		dynamic_cast<VectorAccumulator *>(data_[j].accumulator[i])->add(vel);
1536		break;
1537		case DENSITY:
1538	<	data_[j].accumulator[i]->add(den);
1538	>	dynamic_cast<Accumulator *>(data_[j].accumulator[i])->add(den);
1539		break;
1540		}
1541		}
#	Line 1550 \| Line 1544 \| namespace OpenMD {
1544		}
1545
1546		void RNEMD::getStarted() {
1547	+	if (!doRNEMD_) return;
1548		collectData();
1549		writeOutputFile();
1550		}
1551
1552		void RNEMD::parseOutputFileFormat(const std::string& format) {
1553	+	if (!doRNEMD_) return;
1554		StringTokenizer tokenizer(format, " ,;\|\t\n\r");
1555
1556		while(tokenizer.hasMoreTokens()) {
#	Line 1575 \| Line 1571 \| namespace OpenMD {
1571		}
1572
1573		void RNEMD::writeOutputFile() {
1574	+	if (!doRNEMD_) return;
1575
1576		#ifdef IS_MPI
1577		// If we're the root node, should we print out the results
#	Line 1596 \| Line 1593 \| namespace OpenMD {
1593		RealType time = currentSnap_->getTime();
1594		RealType avgArea;
1595		areaAccumulator_->getAverage(avgArea);
1596	<	RealType Jz = kineticExchange_ / (2.0 * time * avgArea);
1596	>	RealType Jz = kineticExchange_ / (2.0 * time * avgArea)
1597	>	/ PhysicalConstants::energyConvert;
1598		Vector3d JzP = momentumExchange_ / (2.0 * time * avgArea);
1599
1600		rnemdFile_ << "#######################################################\n";
#	Line 1613 \| Line 1611 \| namespace OpenMD {
1611		rnemdFile_ << "# fluxType = \"" << (*fi).first << "\";\n";
1612		}
1613
1614	<	rnemdFile_ << "# exchangeTime = " << exchangeTime_ << "; fs\n";
1614	>	rnemdFile_ << "# exchangeTime = " << exchangeTime_ << ";\n";
1615
1616		rnemdFile_ << "# objectSelection = \""
1617		<< rnemdObjectSelection_ << "\";\n";
#	Line 1625 \| Line 1623 \| namespace OpenMD {
1623		rnemdFile_ << "# RNEMD report:\n";
1624		rnemdFile_ << "# running time = " << time << " fs\n";
1625		rnemdFile_ << "# target flux:\n";
1626	<	rnemdFile_ << "# kinetic = " << kineticFlux_ << "\n";
1627	<	rnemdFile_ << "# momentum = " << momentumFluxVector_ << "\n";
1626	>	rnemdFile_ << "# kinetic = "
1627	>	<< kineticFlux_ / PhysicalConstants::energyConvert
1628	>	<< " (kcal/mol/A^2/fs)\n";
1629	>	rnemdFile_ << "# momentum = " << momentumFluxVector_
1630	>	<< " (amu/A/fs^2)\n";
1631		rnemdFile_ << "# target one-time exchanges:\n";
1632	<	rnemdFile_ << "# kinetic = " << kineticTarget_ << "\n";
1633	<	rnemdFile_ << "# momentum = " << momentumTarget_ << "\n";
1632	>	rnemdFile_ << "# kinetic = "
1633	>	<< kineticTarget_ / PhysicalConstants::energyConvert
1634	>	<< " (kcal/mol)\n";
1635	>	rnemdFile_ << "# momentum = " << momentumTarget_
1636	>	<< " (amu*A/fs)\n";
1637		rnemdFile_ << "# actual exchange totals:\n";
1638	<	rnemdFile_ << "# kinetic = " << kineticExchange_ << "\n";
1639	<	rnemdFile_ << "# momentum = " << momentumExchange_ << "\n";
1638	>	rnemdFile_ << "# kinetic = "
1639	>	<< kineticExchange_ / PhysicalConstants::energyConvert
1640	>	<< " (kcal/mol)\n";
1641	>	rnemdFile_ << "# momentum = " << momentumExchange_
1642	>	<< " (amu*A/fs)\n";
1643		rnemdFile_ << "# actual flux:\n";
1644	<	rnemdFile_ << "# kinetic = " << Jz << "\n";
1645	<	rnemdFile_ << "# momentum = " << JzP << "\n";
1644	>	rnemdFile_ << "# kinetic = " << Jz
1645	>	<< " (kcal/mol/A^2/fs)\n";
1646	>	rnemdFile_ << "# momentum = " << JzP
1647	>	<< " (amu/A/fs^2)\n";
1648		rnemdFile_ << "# exchange statistics:\n";
1649		rnemdFile_ << "# attempted = " << trialCount_ << "\n";
1650		rnemdFile_ << "# failed = " << failTrialCount_ << "\n";
#	Line 1653 \| Line 1662 \| namespace OpenMD {
1662		if (outputMask_[i]) {
1663		rnemdFile_ << "\t" << data_[i].title <<
1664		"(" << data_[i].units << ")";
1665	+	// add some extra tabs for column alignment
1666	+	if (data_[i].dataType == "Vector3d") rnemdFile_ << "\t\t";
1667		}
1668		}
1669		rnemdFile_ << std::endl;
1670
1671		rnemdFile_.precision(8);
1672
1673	<	for (unsigned int j = 0; j < nBins_; j++) {
1673	>	for (int j = 0; j < nBins_; j++) {
1674
1675		for (unsigned int i = 0; i < outputMask_.size(); ++i) {
1676		if (outputMask_[i]) {
#	Line 1685 \| Line 1696 \| namespace OpenMD {
1696		rnemdFile_ << "#######################################################\n";
1697
1698
1699	<	for (unsigned int j = 0; j < nBins_; j++) {
1699	>	for (int j = 0; j < nBins_; j++) {
1700		rnemdFile_ << "#";
1701		for (unsigned int i = 0; i < outputMask_.size(); ++i) {
1702		if (outputMask_[i]) {
#	Line 1716 \| Line 1727 \| namespace OpenMD {
1727		}
1728
1729		void RNEMD::writeReal(int index, unsigned int bin) {
1730	+	if (!doRNEMD_) return;
1731		assert(index >=0 && index < ENDINDEX);
1732		assert(bin < nBins_);
1733		RealType s;
1734
1735	<	data_[index].accumulator[bin]->getAverage(s);
1735	>	dynamic_cast<Accumulator *>(data_[index].accumulator[bin])->getAverage(s);
1736
1737		if (! isinf(s) && ! isnan(s)) {
1738		rnemdFile_ << "\t" << s;
#	Line 1734 \| Line 1746 \| namespace OpenMD {
1746		}
1747
1748		void RNEMD::writeVector(int index, unsigned int bin) {
1749	+	if (!doRNEMD_) return;
1750		assert(index >=0 && index < ENDINDEX);
1751		assert(bin < nBins_);
1752		Vector3d s;
#	Line 1752 \| Line 1765 \| namespace OpenMD {
1765		}
1766
1767		void RNEMD::writeRealStdDev(int index, unsigned int bin) {
1768	+	if (!doRNEMD_) return;
1769		assert(index >=0 && index < ENDINDEX);
1770		assert(bin < nBins_);
1771		RealType s;
1772
1773	<	data_[index].accumulator[bin]->getStdDev(s);
1773	>	dynamic_cast<Accumulator *>(data_[index].accumulator[bin])->getStdDev(s);
1774
1775		if (! isinf(s) && ! isnan(s)) {
1776		rnemdFile_ << "\t" << s;
#	Line 1770 \| Line 1784 \| namespace OpenMD {
1784		}
1785
1786		void RNEMD::writeVectorStdDev(int index, unsigned int bin) {
1787	+	if (!doRNEMD_) return;
1788		assert(index >=0 && index < ENDINDEX);
1789		assert(bin < nBins_);
1790		Vector3d s;

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Comparing: branches/development/src/rnemd/RNEMD.cpp (file contents), Revision 1774 by gezelter, Wed Aug 8 16:03:02 2012 UTC vs. trunk/src/rnemd/RNEMD.cpp (file contents), Revision 1793 by gezelter, Fri Aug 31 21:16:10 2012 UTC

Diff Legend

Comparing:
branches/development/src/rnemd/RNEMD.cpp (file contents), Revision 1774 by gezelter, Wed Aug 8 16:03:02 2012 UTC vs.
trunk/src/rnemd/RNEMD.cpp (file contents), Revision 1793 by gezelter, Fri Aug 31 21:16:10 2012 UTC