[ViewVC] Diff of: OpenMD/branches/development/src/nonbonded/LJ.cpp

Comparing branches/development/src/nonbonded/LJ.cpp (file contents):
Revision 1472 by gezelter, Mon Jul 19 20:42:55 2010 UTC vs.
Revision 1505 by gezelter, Sun Oct 3 22:18:59 2010 UTC

#	Line 46 \| Line 46
46		#include "nonbonded/LJ.hpp"
47		#include "utils/simError.h"
48
49	–
49		namespace OpenMD {
50
51	<	bool LJ::initialized_ = false;
52	<	bool LJ::shiftedPot_ = false;
54	<	bool LJ::shiftedFrc_ = false;
55	<	ForceField* LJ::forceField_ = NULL;
56	<	std::map<int, AtomType*> LJ::LJMap;
57	<	std::map<std::pair<AtomType, AtomType>, LJInteractionData> LJ::MixingMap;
58	<
59	<	LJ* LJ::_instance = NULL;
51	>	LJ::LJ() : name_("LJ"), initialized_(false), shiftedPot_(false),
52	>	shiftedFrc_(false), forceField_(NULL) {}
53
61	–	LJ* LJ::Instance() {
62	–	if (!_instance) {
63	–	_instance = new LJ();
64	–	}
65	–	return _instance;
66	–	}
67	–
54		LJParam LJ::getLJParam(AtomType* atomType) {
55
56		// Do sanity checking on the AtomType we were passed before
#	Line 106 \| Line 92 \| namespace OpenMD {
92		return ljParam.sigma;
93		}
94
109	–	RealType LJ::getSigma(int atid) {
110	–	std::map<int, AtomType*> :: const_iterator it;
111	–	it = LJMap.find(atid);
112	–	if (it == LJMap.end()) {
113	–	sprintf( painCave.errMsg,
114	–	"LJ::getSigma could not find atid %d in LJMap\n",
115	–	(atid));
116	–	painCave.severity = OPENMD_ERROR;
117	–	painCave.isFatal = 1;
118	–	simError();
119	–	}
120	–	AtomType* atype = it->second;
121	–
122	–	return getSigma(atype);
123	–	}
124	–
95		RealType LJ::getSigma(AtomType* atomType1, AtomType* atomType2) {
96		RealType sigma1 = getSigma(atomType1);
97		RealType sigma2 = getSigma(atomType2);
98
99		ForceFieldOptions& fopts = forceField_->getForceFieldOptions();
100	<	std::string DistanceMix = fopts.getDistanceMixingRule();
100	>	string DistanceMix = fopts.getDistanceMixingRule();
101		toUpper(DistanceMix);
102
103		if (DistanceMix == "GEOMETRIC")
#	Line 141 \| Line 111 \| namespace OpenMD {
111		return ljParam.epsilon;
112		}
113
144	–	RealType LJ::getEpsilon(int atid) {
145	–	std::map<int, AtomType*> :: const_iterator it;
146	–	it = LJMap.find(atid);
147	–	if (it == LJMap.end()) {
148	–	sprintf( painCave.errMsg,
149	–	"LJ::getEpsilon could not find atid %d in LJMap\n",
150	–	(atid));
151	–	painCave.severity = OPENMD_ERROR;
152	–	painCave.isFatal = 1;
153	–	simError();
154	–	}
155	–	AtomType* atype = it->second;
156	–
157	–	return getEpsilon(atype);
158	–	}
159	–
114		RealType LJ::getEpsilon(AtomType* atomType1, AtomType* atomType2) {
115		RealType epsilon1 = getEpsilon(atomType1);
116		RealType epsilon2 = getEpsilon(atomType2);
#	Line 164 \| Line 118 \| namespace OpenMD {
118		}
119
120		void LJ::initialize() {
121	<	ForceField::AtomTypeContainer atomTypes = forceField_->getAtomTypes();
121	>	ForceField::AtomTypeContainer* atomTypes = forceField_->getAtomTypes();
122		ForceField::AtomTypeContainer::MapTypeIterator i;
123		AtomType* at;
124
125	<	for (at = atomTypes.beginType(i); at != NULL;
126	<	at = atomTypes.nextType(i)) {
125	>	for (at = atomTypes->beginType(i); at != NULL;
126	>	at = atomTypes->nextType(i)) {
127
128		if (at->isLennardJones())
129		addType(at);
130		}
131
132	<	ForceField::NonBondedInteractionTypeContainer nbiTypes = forceField_->getNonBondedInteractionTypes();
132	>	ForceField::NonBondedInteractionTypeContainer* nbiTypes = forceField_->getNonBondedInteractionTypes();
133		ForceField::NonBondedInteractionTypeContainer::MapTypeIterator j;
134		NonBondedInteractionType* nbt;
135
136	<	for (nbt = nbiTypes.beginType(j); nbt != NULL;
137	<	nbt = nbiTypes.nextType(j)) {
136	>	for (nbt = nbiTypes->beginType(j); nbt != NULL;
137	>	nbt = nbiTypes->nextType(j)) {
138
139		if (nbt->isLennardJones()) {
140
141	<	std::pair<AtomType, AtomType> atypes = nbt->getAtomTypes();
141	>	pair<AtomType, AtomType> atypes = nbt->getAtomTypes();
142
143		GenericData* data = nbt->getPropertyByName("LennardJones");
144		if (data == NULL) {
#	Line 225 \| Line 179 \| namespace OpenMD {
179		void LJ::addType(AtomType* atomType){
180		RealType sigma1 = getSigma(atomType);
181		RealType epsilon1 = getEpsilon(atomType);
182	<
182	>
183		// add it to the map:
184		AtomTypeProperties atp = atomType->getATP();
185	<	std::pair<std::map<int,AtomType*>::iterator,bool> ret;
186	<	ret = LJMap.insert( std::pair<int, AtomType*>(atp.ident, atomType) );
185	>
186	>	pair<map<int,AtomType*>::iterator,bool> ret;
187	>	ret = LJMap.insert( pair<int, AtomType*>(atp.ident, atomType) );
188		if (ret.second == false) {
189		sprintf( painCave.errMsg,
190		"LJ already had a previous entry with ident %d\n",
#	Line 285 \| Line 240 \| namespace OpenMD {
240		}
241		}
242
243	<	void LJ::calcForce(AtomType* at1, AtomType* at2, Vector3d d,
244	<	RealType rij, RealType r2, RealType rcut, RealType sw,
290	<	RealType vdwMult, RealType &vpair, RealType &pot,
291	<	Vector3d &f1) {
292	<
243	>	void LJ::calcForce(InteractionData idat) {
244	>
245		if (!initialized_) initialize();
246
247	<	RealType ros;
248	<	RealType rcos;
249	<	RealType myPot = 0.0;
298	<	RealType myPotC = 0.0;
299	<	RealType myDeriv = 0.0;
300	<	RealType myDerivC = 0.0;
301	<
302	<	std::pair<AtomType, AtomType> key = std::make_pair(at1, at2);
303	<	LJInteractionData mixer = MixingMap[key];
304	<
305	<	RealType sigmai = mixer.sigmai;
306	<	RealType epsilon = mixer.epsilon;
247	>	pair<AtomType, AtomType> key = make_pair(idat.atype1, idat.atype2);
248	>	map<pair<AtomType, AtomType>, LJInteractionData>::iterator it;
249	>	it = MixingMap.find(key);
250
251	<	ros = rij * sigmai;
252	<
253	<	getLJfunc(ros, myPot, myDeriv);
251	>	if (it != MixingMap.end()) {
252	>
253	>	LJInteractionData mixer = (*it).second;
254	>
255	>	RealType sigmai = mixer.sigmai;
256	>	RealType epsilon = mixer.epsilon;
257	>
258	>	RealType ros;
259	>	RealType rcos;
260	>	RealType myPot = 0.0;
261	>	RealType myPotC = 0.0;
262	>	RealType myDeriv = 0.0;
263	>	RealType myDerivC = 0.0;
264	>
265	>	ros = idat.rij * sigmai;
266	>
267	>	getLJfunc(ros, myPot, myDeriv);
268	>
269	>	if (shiftedPot_) {
270	>	rcos = idat.rcut * sigmai;
271	>	getLJfunc(rcos, myPotC, myDerivC);
272	>	myDerivC = 0.0;
273	>	} else if (LJ::shiftedFrc_) {
274	>	rcos = idat.rcut * sigmai;
275	>	getLJfunc(rcos, myPotC, myDerivC);
276	>	myPotC = myPotC + myDerivC * (idat.rij - idat.rcut) * sigmai;
277	>	} else {
278	>	myPotC = 0.0;
279	>	myDerivC = 0.0;
280	>	}
281
282	<	if (shiftedPot_) {
283	<	rcos = rcut * sigmai;
284	<	getLJfunc(rcos, myPotC, myDerivC);
285	<	myDerivC = 0.0;
286	<	} else if (LJ::shiftedFrc_) {
287	<	rcos = rcut * sigmai;
288	<	getLJfunc(rcos, myPotC, myDerivC);
289	<	myPotC = myPotC + myDerivC * (rij - rcut) * sigmai;
290	<	} else {
321	<	myPotC = 0.0;
322	<	myDerivC = 0.0;
282	>	RealType pot_temp = idat.vdwMult * epsilon * (myPot - myPotC);
283	>	idat.vpair += pot_temp;
284	>
285	>	RealType dudr = idat.sw * idat.vdwMult * epsilon * (myDeriv -
286	>	myDerivC)*sigmai;
287	>
288	>	idat.pot += idat.sw * pot_temp;
289	>	idat.f1 = idat.d * dudr / idat.rij;
290	>
291		}
324	–
325	–	RealType pot_temp = vdwMult * epsilon * (myPot - myPotC);
326	–	vpair += pot_temp;
327	–
328	–	RealType dudr = sw * vdwMult * epsilon * (myDeriv - myDerivC)*sigmai;
329	–
330	–	pot += sw * pot_temp;
331	–	f1 = d * dudr / rij;
332	–
292		return;
293		}
335	–
336	–	void LJ::do_lj_pair(int atid1, int atid2, RealType d, RealType rij,
337	–	RealType r2, RealType rcut, RealType *sw,
338	–	RealType *vdwMult,
339	–	RealType vpair, RealType pot, RealType *f1) {
340	–
341	–	if (!initialized_) initialize();
342	–
343	–	AtomType* atype1 = LJMap[*atid1];
344	–	AtomType* atype2 = LJMap[*atid2];
345	–
346	–	Vector3d disp(d[0], d[1], d[2]);
347	–	Vector3d frc(f1[0], f1[1], f1[2]);
348	–
349	–	calcForce(atype1, atype2, disp, rij, r2, rcut, sw, vdwMult, vpair,
350	–	*pot, frc);
351	–
352	–	f1[0] = frc.x();
353	–	f1[1] = frc.y();
354	–	f1[2] = frc.z();
355	–
356	–	return;
357	–	}
294
295		void LJ::getLJfunc(RealType r, RealType &pot, RealType &deriv) {
296
#	Line 371 \| Line 307 \| namespace OpenMD {
307		return;
308		}
309
310	<
311	<	void LJ::setLJDefaultCutoff(RealType thisRcut, int sP, int *sF) {
312	<	shiftedPot_ = (bool)(*sP);
313	<	shiftedFrc_ = (bool)(*sF);
310	>	RealType LJ::getSuggestedCutoffRadius(AtomType* at1, AtomType* at2) {
311	>	if (!initialized_) initialize();
312	>	pair<AtomType, AtomType> key = make_pair(at1, at2);
313	>	map<pair<AtomType, AtomType>, LJInteractionData>::iterator it;
314	>	it = MixingMap.find(key);
315	>	if (it == MixingMap.end())
316	>	return 0.0;
317	>	else {
318	>	LJInteractionData mixer = (*it).second;
319	>	return 2.5 * mixer.sigma;
320	>	}
321		}
379	–	}
322
381	–	extern "C" {
382	–
383	–	#define fortranGetSigma FC_FUNC(getsigma, GETSIGMA)
384	–	#define fortranGetEpsilon FC_FUNC(getepsilon, GETEPSILON)
385	–	#define fortranSetLJCutoff FC_FUNC(setljdefaultcutoff, SETLJDEFAULTCUTOFF)
386	–	#define fortranDoLJPair FC_FUNC(do_lj_pair, DO_LJ_PAIR)
387	–
388	–	RealType fortranGetSigma(int* atid) {
389	–	return OpenMD::LJ::Instance()->getSigma(*atid);
390	–	}
391	–	RealType fortranGetEpsilon(int* atid) {
392	–	return OpenMD::LJ::Instance()->getEpsilon(*atid);
393	–	}
394	–	void fortranSetLJCutoff(RealType rcut, int shiftedPot, int *shiftedFrc) {
395	–	return OpenMD::LJ::Instance()->setLJDefaultCutoff(rcut, shiftedPot,
396	–	shiftedFrc);
397	–	}
398	–	void fortranDoLJPair(int atid1, int atid2, RealType d, RealType rij,
399	–	RealType r2, RealType rcut, RealType *sw,
400	–	RealType vdwMult, RealType vpair, RealType* pot,
401	–	RealType *f1){
402	–
403	–	return OpenMD::LJ::Instance()->do_lj_pair(atid1, atid2, d, rij, r2, rcut,
404	–	sw, vdwMult, vpair, pot, f1);
405	–	}
323		}

Diff Legend

-–
+Removed lines
-+
+Added lines
-<
+Changed lines
->
+Changed lines

Comparing branches/development/src/nonbonded/LJ.cpp (file contents): Revision 1472 by gezelter, Mon Jul 19 20:42:55 2010 UTC vs. Revision 1505 by gezelter, Sun Oct 3 22:18:59 2010 UTC

Diff Legend

Comparing branches/development/src/nonbonded/LJ.cpp (file contents):
Revision 1472 by gezelter, Mon Jul 19 20:42:55 2010 UTC vs.
Revision 1505 by gezelter, Sun Oct 3 22:18:59 2010 UTC