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

Comparing branches/development/src/rnemd/RNEMD.cpp (file contents):
Revision 1777 by gezelter, Thu Aug 9 18:35:09 2012 UTC vs.
Revision 1850 by gezelter, Wed Feb 20 15:39:39 2013 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).
38	>	* [3] Sun, Lin & Gezelter, J. Chem. Phys. 128, 234107 (2008).
39		* [4] Vardeman & Gezelter, in progress (2009).
40		*/
41
#	Line 51 \| Line 51
51		#include "utils/Tuple.hpp"
52		#ifdef IS_MPI
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
#	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
#	Line 277 \| Line 281 \| namespace OpenMD {
281		// do some sanity checking
282
283		int selectionCount = seleMan_.getSelectionCount();
284	+
285		int nIntegrable = info->getNGlobalIntegrableObjects();
286
287		if (selectionCount > nIntegrable) {
#	Line 305 \| Line 310 \| namespace OpenMD {
310		z.title = "Z";
311		z.dataType = "RealType";
312		z.accumulator.reserve(nBins_);
313	<	for (unsigned int i = 0; i < nBins_; i++)
313	>	for (int i = 0; i < nBins_; i++)
314		z.accumulator.push_back( new Accumulator() );
315		data_[Z] = z;
316		outputMap_["Z"] = Z;
#	Line 315 \| Line 320 \| namespace OpenMD {
320		temperature.title = "Temperature";
321		temperature.dataType = "RealType";
322		temperature.accumulator.reserve(nBins_);
323	<	for (unsigned int i = 0; i < nBins_; i++)
323	>	for (int i = 0; i < nBins_; i++)
324		temperature.accumulator.push_back( new Accumulator() );
325		data_[TEMPERATURE] = temperature;
326		outputMap_["TEMPERATURE"] = TEMPERATURE;
#	Line 325 \| Line 330 \| namespace OpenMD {
330		velocity.title = "Velocity";
331		velocity.dataType = "Vector3d";
332		velocity.accumulator.reserve(nBins_);
333	<	for (unsigned int i = 0; i < nBins_; i++)
333	>	for (int i = 0; i < nBins_; i++)
334		velocity.accumulator.push_back( new VectorAccumulator() );
335		data_[VELOCITY] = velocity;
336		outputMap_["VELOCITY"] = VELOCITY;
#	Line 335 \| Line 340 \| namespace OpenMD {
340		density.title = "Density";
341		density.dataType = "RealType";
342		density.accumulator.reserve(nBins_);
343	<	for (unsigned int i = 0; i < nBins_; i++)
343	>	for (int i = 0; i < nBins_; i++)
344		density.accumulator.push_back( new Accumulator() );
345		data_[DENSITY] = density;
346		outputMap_["DENSITY"] = DENSITY;
#	Line 447 \| Line 452 \| namespace OpenMD {
452
453		int selei;
454		StuntDouble* sd;
450	–	int idx;
455
456		RealType min_val;
457		bool min_found = false;
#	Line 460 \| Line 464 \| namespace OpenMD {
464		for (sd = seleMan_.beginSelected(selei); sd != NULL;
465		sd = seleMan_.nextSelected(selei)) {
466
463	–	idx = sd->getLocalIndex();
464	–
467		Vector3d pos = sd->getPos();
468
469		// wrap the stuntdouble's position back into the box:
#	Line 539 \| Line 541 \| namespace OpenMD {
541		}
542		}
543
544	<	#ifdef IS_MPI
545	<	int nProc, worldRank;
544	>	#ifdef IS_MPI
545	>	int worldRank = MPI::COMM_WORLD.Get_rank();
546
545	–	nProc = MPI::COMM_WORLD.Get_size();
546	–	worldRank = MPI::COMM_WORLD.Get_rank();
547	–
547		bool my_min_found = min_found;
548		bool my_max_found = max_found;
549
#	Line 777 \| Line 776 \| namespace OpenMD {
776
777		int selei;
778		StuntDouble* sd;
780	–	int idx;
779
780		vector<StuntDouble*> hotBin, coldBin;
781
#	Line 799 \| Line 797 \| namespace OpenMD {
797		for (sd = seleMan_.beginSelected(selei); sd != NULL;
798		sd = seleMan_.nextSelected(selei)) {
799
802	–	idx = sd->getLocalIndex();
803	–
800		Vector3d pos = sd->getPos();
801
802		// wrap the stuntdouble's position back into the box:
#	Line 913 \| Line 909 \| namespace OpenMD {
909
910		if ((c > 0.81) && (c < 1.21)) {//restrict scaling coefficients
911		c = sqrt(c);
912	<	//std::cerr << "cold slab scaling coefficient: " << c << endl;
917	<	//now convert to hotBin coefficient
912	>
913		RealType w = 0.0;
914		if (rnemdFluxType_ == rnemdFullKE) {
915		x = 1.0 + px * (1.0 - c);
#	Line 952 \| Line 947 \| namespace OpenMD {
947		}
948		}
949		w = sqrt(w);
955	–	// std::cerr << "xh= " << x << "\tyh= " << y << "\tzh= " << z
956	–	// << "\twh= " << w << endl;
950		for (sdi = hotBin.begin(); sdi != hotBin.end(); sdi++) {
951		if (rnemdFluxType_ == rnemdFullKE) {
952		vel = (*sdi)->getVel();
#	Line 1227 \| Line 1220 \| namespace OpenMD {
1220
1221		int selei;
1222		StuntDouble* sd;
1230	–	int idx;
1223
1224		vector<StuntDouble*> hotBin, coldBin;
1225
#	Line 1242 \| Line 1234 \| namespace OpenMD {
1234		for (sd = seleMan_.beginSelected(selei); sd != NULL;
1235		sd = seleMan_.nextSelected(selei)) {
1236
1245	–	idx = sd->getLocalIndex();
1246	–
1237		Vector3d pos = sd->getPos();
1238
1239		// wrap the stuntdouble's position back into the box:
#	Line 1262 \| Line 1252 \| namespace OpenMD {
1252
1253		if (inA) {
1254		hotBin.push_back(sd);
1265	–	//std::cerr << "before, velocity = " << vel << endl;
1255		Ph += mass * vel;
1267	–	//std::cerr << "after, velocity = " << vel << endl;
1256		Mh += mass;
1257		Kh += mass * vel.lengthSquare();
1258		if (rnemdFluxType_ == rnemdFullKE) {
#	Line 1312 \| Line 1300 \| namespace OpenMD {
1300
1301		Kh *= 0.5;
1302		Kc *= 0.5;
1315	–
1316	–	// std::cerr << "Mh= " << Mh << "\tKh= " << Kh << "\tMc= " << Mc
1317	–	// << "\tKc= " << Kc << endl;
1318	–	// std::cerr << "Ph= " << Ph << "\tPc= " << Pc << endl;
1303
1304		#ifdef IS_MPI
1305		MPI::COMM_WORLD.Allreduce(MPI::IN_PLACE, &Ph[0], 3, MPI::REALTYPE, MPI::SUM);
#	Line 1347 \| Line 1331 \| namespace OpenMD {
1331		if (hDenominator > 0.0) {
1332		RealType h = sqrt(hNumerator / hDenominator);
1333		if ((h > 0.9) && (h < 1.1)) {
1334	<	// std::cerr << "cold slab scaling coefficient: " << c << "\n";
1351	<	// std::cerr << "hot slab scaling coefficient: " << h << "\n";
1334	>
1335		vector<StuntDouble*>::iterator sdi;
1336		Vector3d vel;
1337		for (sdi = coldBin.begin(); sdi != coldBin.end(); sdi++) {
#	Line 1423 \| Line 1406 \| namespace OpenMD {
1406
1407		seleMan_.setSelectionSet(evaluator_.evaluate());
1408
1409	<	int selei;
1409	>	int selei(0);
1410		StuntDouble* sd;
1428	–	int idx;
1411
1412		vector<RealType> binMass(nBins_, 0.0);
1413		vector<RealType> binPx(nBins_, 0.0);
#	Line 1449 \| Line 1431 \| namespace OpenMD {
1431		sd != NULL;
1432		sd = mol->nextIntegrableObject(iiter))
1433		*/
1434	+
1435		for (sd = seleMan_.beginSelected(selei); sd != NULL;
1436	<	sd = seleMan_.nextSelected(selei)) {
1437	<
1455	<	idx = sd->getLocalIndex();
1456	<
1436	>	sd = seleMan_.nextSelected(selei)) {
1437	>
1438		Vector3d pos = sd->getPos();
1439
1440		// wrap the stuntdouble's position back into the box:
#	Line 1468 \| Line 1449 \| namespace OpenMD {
1449		// The modulo operator is used to wrap the case when we are
1450		// beyond the end of the bins back to the beginning.
1451		int binNo = int(nBins_ * (pos.z() / hmat(2,2) + 0.5)) % nBins_;
1452	<
1452	>
1453		RealType mass = sd->getMass();
1454		Vector3d vel = sd->getVel();
1455
#	Line 1499 \| Line 1480 \| namespace OpenMD {
1480		}
1481		}
1482
1502	–
1483		#ifdef IS_MPI
1484		MPI::COMM_WORLD.Allreduce(MPI::IN_PLACE, &binCount[0],
1485		nBins_, MPI::INT, MPI::SUM);
#	Line 1530 \| Line 1510 \| namespace OpenMD {
1510		den = binMass[i] * nBins_ * PhysicalConstants::densityConvert
1511		/ currentSnap_->getVolume() ;
1512
1513	<	temp = 2.0 * binKE[i] / (binDOF[i] * PhysicalConstants::kb *
1514	<	PhysicalConstants::energyConvert);
1515	<
1516	<	for (unsigned int j = 0; j < outputMask_.size(); ++j) {
1517	<	if(outputMask_[j]) {
1518	<	switch(j) {
1519	<	case Z:
1520	<	(data_[j].accumulator[i])->add(z);
1521	<	break;
1522	<	case TEMPERATURE:
1523	<	data_[j].accumulator[i]->add(temp);
1524	<	break;
1525	<	case VELOCITY:
1526	<	dynamic_cast<VectorAccumulator *>(data_[j].accumulator[i])->add(vel);
1527	<	break;
1528	<	case DENSITY:
1529	<	data_[j].accumulator[i]->add(den);
1530	<	break;
1513	>	if (binCount[i] > 0) {
1514	>	// only add values if there are things to add
1515	>	temp = 2.0 * binKE[i] / (binDOF[i] * PhysicalConstants::kb *
1516	>	PhysicalConstants::energyConvert);
1517	>
1518	>	for (unsigned int j = 0; j < outputMask_.size(); ++j) {
1519	>	if(outputMask_[j]) {
1520	>	switch(j) {
1521	>	case Z:
1522	>	dynamic_cast<Accumulator *>(data_[j].accumulator[i])->add(z);
1523	>	break;
1524	>	case TEMPERATURE:
1525	>	dynamic_cast<Accumulator *>(data_[j].accumulator[i])->add(temp);
1526	>	break;
1527	>	case VELOCITY:
1528	>	dynamic_cast<VectorAccumulator *>(data_[j].accumulator[i])->add(vel);
1529	>	break;
1530	>	case DENSITY:
1531	>	dynamic_cast<Accumulator *>(data_[j].accumulator[i])->add(den);
1532	>	break;
1533	>	}
1534		}
1535		}
1536		}
#	Line 1681 \| Line 1664 \| namespace OpenMD {
1664
1665		rnemdFile_.precision(8);
1666
1667	<	for (unsigned int j = 0; j < nBins_; j++) {
1667	>	for (int j = 0; j < nBins_; j++) {
1668
1669		for (unsigned int i = 0; i < outputMask_.size(); ++i) {
1670		if (outputMask_[i]) {
#	Line 1707 \| Line 1690 \| namespace OpenMD {
1690		rnemdFile_ << "#######################################################\n";
1691
1692
1693	<	for (unsigned int j = 0; j < nBins_; j++) {
1693	>	for (int j = 0; j < nBins_; j++) {
1694		rnemdFile_ << "#";
1695		for (unsigned int i = 0; i < outputMask_.size(); ++i) {
1696		if (outputMask_[i]) {
#	Line 1740 \| Line 1723 \| namespace OpenMD {
1723		void RNEMD::writeReal(int index, unsigned int bin) {
1724		if (!doRNEMD_) return;
1725		assert(index >=0 && index < ENDINDEX);
1726	<	assert(bin < nBins_);
1726	>	assert(int(bin) < nBins_);
1727		RealType s;
1728
1729	<	data_[index].accumulator[bin]->getAverage(s);
1729	>	dynamic_cast<Accumulator *>(data_[index].accumulator[bin])->getAverage(s);
1730
1731		if (! isinf(s) && ! isnan(s)) {
1732		rnemdFile_ << "\t" << s;
#	Line 1759 \| Line 1742 \| namespace OpenMD {
1742		void RNEMD::writeVector(int index, unsigned int bin) {
1743		if (!doRNEMD_) return;
1744		assert(index >=0 && index < ENDINDEX);
1745	<	assert(bin < nBins_);
1745	>	assert(int(bin) < nBins_);
1746		Vector3d s;
1747		dynamic_cast<VectorAccumulator*>(data_[index].accumulator[bin])->getAverage(s);
1748		if (isinf(s[0]) \|\| isnan(s[0]) \|\|
#	Line 1778 \| Line 1761 \| namespace OpenMD {
1761		void RNEMD::writeRealStdDev(int index, unsigned int bin) {
1762		if (!doRNEMD_) return;
1763		assert(index >=0 && index < ENDINDEX);
1764	<	assert(bin < nBins_);
1764	>	assert(int(bin) < nBins_);
1765		RealType s;
1766
1767	<	data_[index].accumulator[bin]->getStdDev(s);
1767	>	dynamic_cast<Accumulator *>(data_[index].accumulator[bin])->getStdDev(s);
1768
1769		if (! isinf(s) && ! isnan(s)) {
1770		rnemdFile_ << "\t" << s;
#	Line 1797 \| Line 1780 \| namespace OpenMD {
1780		void RNEMD::writeVectorStdDev(int index, unsigned int bin) {
1781		if (!doRNEMD_) return;
1782		assert(index >=0 && index < ENDINDEX);
1783	<	assert(bin < nBins_);
1783	>	assert(int(bin) < nBins_);
1784		Vector3d s;
1785		dynamic_cast<VectorAccumulator*>(data_[index].accumulator[bin])->getStdDev(s);
1786		if (isinf(s[0]) \|\| isnan(s[0]) \|\|

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Comparing branches/development/src/rnemd/RNEMD.cpp (file contents): Revision 1777 by gezelter, Thu Aug 9 18:35:09 2012 UTC vs. Revision 1850 by gezelter, Wed Feb 20 15:39:39 2013 UTC

Diff Legend

Comparing branches/development/src/rnemd/RNEMD.cpp (file contents):
Revision 1777 by gezelter, Thu Aug 9 18:35:09 2012 UTC vs.
Revision 1850 by gezelter, Wed Feb 20 15:39:39 2013 UTC