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

Comparing branches/development/src/nonbonded/InteractionManager.cpp (file contents):
Revision 1505 by gezelter, Sun Oct 3 22:18:59 2010 UTC vs.
Revision 1710 by gezelter, Fri May 18 21:44:02 2012 UTC

#	Line 36 \| Line 36
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).
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		#include "nonbonded/InteractionManager.hpp"
44
45		namespace OpenMD {
45	–
46	–	bool InteractionManager::initialized_ = false;
47	–	ForceField* InteractionManager::forceField_ = NULL;
48	–	InteractionManager* InteractionManager::_instance = NULL;
49	–	map<int, AtomType*> InteractionManager::typeMap_;
50	–	map<pair<AtomType, AtomType>, set<NonBondedInteraction*> > InteractionManager::interactions_;
51	–
52	–	InteractionManager* InteractionManager::Instance() {
53	–	if (!_instance) {
54	–	_instance = new InteractionManager();
55	–	}
56	–	return _instance;
57	–	}
46
47	<	void InteractionManager::initialize() {
48	<
47	>	InteractionManager::InteractionManager() {
48	>
49	>	initialized_ = false;
50	>
51		lj_ = new LJ();
52		gb_ = new GB();
53		sticky_ = new Sticky();
54	+	morse_ = new Morse();
55	+	repulsivePower_ = new RepulsivePower();
56		eam_ = new EAM();
57		sc_ = new SC();
66	–	morse_ = new Morse();
58		electrostatic_ = new Electrostatic();
59	+	maw_ = new MAW();
60	+	}
61
62	+	void InteractionManager::initialize() {
63	+
64	+	ForceField* forceField_ = info_->getForceField();
65	+
66		lj_->setForceField(forceField_);
67		gb_->setForceField(forceField_);
68		sticky_->setForceField(forceField_);
69		eam_->setForceField(forceField_);
70		sc_->setForceField(forceField_);
71		morse_->setForceField(forceField_);
72	+	electrostatic_->setSimInfo(info_);
73		electrostatic_->setForceField(forceField_);
74	+	maw_->setForceField(forceField_);
75	+	repulsivePower_->setForceField(forceField_);
76
77		ForceField::AtomTypeContainer* atomTypes = forceField_->getAtomTypes();
78		ForceField::AtomTypeContainer::MapTypeIterator i1, i2;
#	Line 85 \| Line 85 \| namespace OpenMD {
85		atype1 = atomTypes->nextType(i1)) {
86
87		// add it to the map:
88	–	AtomTypeProperties atp = atype1->getATP();
88
89		pair<map<int,AtomType*>::iterator,bool> ret;
90	<	ret = typeMap_.insert( pair<int, AtomType*>(atp.ident, atype1) );
90	>	ret = typeMap_.insert( pair<int, AtomType*>(atype1->getIdent(), atype1) );
91		if (ret.second == false) {
92		sprintf( painCave.errMsg,
93		"InteractionManager already had a previous entry with ident %d\n",
94	<	atp.ident);
94	>	atype1->getIdent());
95		painCave.severity = OPENMD_INFO;
96		painCave.isFatal = 0;
97		simError();
#	Line 143 \| Line 142 \| namespace OpenMD {
142		// look for an explicitly-set non-bonded interaction type using the
143		// two atom types.
144		NonBondedInteractionType* nbiType = forceField_->getNonBondedInteractionType(atype1->getName(), atype2->getName());
145	+
146	+	if (nbiType != NULL) {
147
148	<	if (nbiType->isLennardJones()) {
149	<	// We found an explicit Lennard-Jones interaction.
150	<	// override all other vdw entries for this pair of atom types:
151	<	set<NonBondedInteraction*>::iterator it;
152	<	for (it = interactions_[key].begin(); it != interactions_[key].end(); ++it) {
153	<	InteractionFamily ifam = (*it)->getFamily();
154	<	if (ifam == VANDERWAALS_FAMILY) interactions_[key].erase(*it);
148	>	if (nbiType->isLennardJones()) {
149	>	// We found an explicit Lennard-Jones interaction.
150	>	// override all other vdw entries for this pair of atom types:
151	>	set<NonBondedInteraction*>::iterator it;
152	>	for (it = interactions_[key].begin();
153	>	it != interactions_[key].end(); ++it) {
154	>	InteractionFamily ifam = (*it)->getFamily();
155	>	if (ifam == VANDERWAALS_FAMILY) interactions_[key].erase(*it);
156	>	}
157	>	interactions_[key].insert(lj_);
158	>	vdwExplicit = true;
159		}
160	<	interactions_[key].insert(lj_);
161	<	vdwExplicit = true;
162	<	}
163	<
164	<	if (nbiType->isMorse()) {
165	<	if (vdwExplicit) {
166	<	sprintf( painCave.errMsg,
167	<	"InteractionManager::initialize found more than one explicit\n"
168	<	"\tvan der Waals interaction for atom types %s - %s\n",
169	<	atype1->getName().c_str(), atype2->getName().c_str());
170	<	painCave.severity = OPENMD_ERROR;
171	<	painCave.isFatal = 1;
172	<	simError();
160	>
161	>	if (nbiType->isMorse()) {
162	>	if (vdwExplicit) {
163	>	sprintf( painCave.errMsg,
164	>	"InteractionManager::initialize found more than one "
165	>	"explicit \n"
166	>	"\tvan der Waals interaction for atom types %s - %s\n",
167	>	atype1->getName().c_str(), atype2->getName().c_str());
168	>	painCave.severity = OPENMD_ERROR;
169	>	painCave.isFatal = 1;
170	>	simError();
171	>	}
172	>	// We found an explicit Morse interaction.
173	>	// override all other vdw entries for this pair of atom types:
174	>	set<NonBondedInteraction*>::iterator it;
175	>	for (it = interactions_[key].begin();
176	>	it != interactions_[key].end(); ++it) {
177	>	InteractionFamily ifam = (*it)->getFamily();
178	>	if (ifam == VANDERWAALS_FAMILY) interactions_[key].erase(*it);
179	>	}
180	>	interactions_[key].insert(morse_);
181	>	vdwExplicit = true;
182		}
169	–	// We found an explicit Morse interaction.
170	–	// override all other vdw entries for this pair of atom types:
171	–	set<NonBondedInteraction*>::iterator it;
172	–	for (it = interactions_[key].begin(); it != interactions_[key].end(); ++it) {
173	–	InteractionFamily ifam = (*it)->getFamily();
174	–	if (ifam == VANDERWAALS_FAMILY) interactions_[key].erase(*it);
175	–	}
176	–	interactions_[key].insert(morse_);
177	–	vdwExplicit = true;
178	–	}
183
184	<	if (nbiType->isEAM()) {
185	<	// We found an explicit EAM interaction.
186	<	// override all other metallic entries for this pair of atom types:
187	<	set<NonBondedInteraction*>::iterator it;
188	<	for (it = interactions_[key].begin(); it != interactions_[key].end(); ++it) {
189	<	InteractionFamily ifam = (*it)->getFamily();
190	<	if (ifam == METALLIC_FAMILY) interactions_[key].erase(*it);
184	>	if (nbiType->isRepulsivePower()) {
185	>	if (vdwExplicit) {
186	>	sprintf( painCave.errMsg,
187	>	"InteractionManager::initialize found more than one "
188	>	"explicit \n"
189	>	"\tvan der Waals interaction for atom types %s - %s\n",
190	>	atype1->getName().c_str(), atype2->getName().c_str());
191	>	painCave.severity = OPENMD_ERROR;
192	>	painCave.isFatal = 1;
193	>	simError();
194	>	}
195	>	// We found an explicit RepulsivePower interaction.
196	>	// override all other vdw entries for this pair of atom types:
197	>	set<NonBondedInteraction*>::iterator it;
198	>	for (it = interactions_[key].begin();
199	>	it != interactions_[key].end(); ++it) {
200	>	InteractionFamily ifam = (*it)->getFamily();
201	>	if (ifam == VANDERWAALS_FAMILY) interactions_[key].erase(*it);
202	>	}
203	>	interactions_[key].insert(repulsivePower_);
204	>	vdwExplicit = true;
205		}
206	<	interactions_[key].insert(eam_);
207	<	metExplicit = true;
208	<	}
209	<
210	<	if (nbiType->isSC()) {
211	<	if (metExplicit) {
212	<	sprintf( painCave.errMsg,
213	<	"InteractionManager::initialize found more than one explicit\n"
214	<	"\tmetallic interaction for atom types %s - %s\n",
215	<	atype1->getName().c_str(), atype2->getName().c_str());
216	<	painCave.severity = OPENMD_ERROR;
217	<	painCave.isFatal = 1;
218	<	simError();
206	>
207	>
208	>	if (nbiType->isEAM()) {
209	>	// We found an explicit EAM interaction.
210	>	// override all other metallic entries for this pair of atom types:
211	>	set<NonBondedInteraction*>::iterator it;
212	>	for (it = interactions_[key].begin();
213	>	it != interactions_[key].end(); ++it) {
214	>	InteractionFamily ifam = (*it)->getFamily();
215	>	if (ifam == METALLIC_FAMILY) interactions_[key].erase(*it);
216	>	}
217	>	interactions_[key].insert(eam_);
218	>	metExplicit = true;
219		}
220	<	// We found an explicit Sutton-Chen interaction.
221	<	// override all other metallic entries for this pair of atom types:
222	<	set<NonBondedInteraction*>::iterator it;
223	<	for (it = interactions_[key].begin(); it != interactions_[key].end(); ++it) {
224	<	InteractionFamily ifam = (*it)->getFamily();
225	<	if (ifam == METALLIC_FAMILY) interactions_[key].erase(*it);
220	>
221	>	if (nbiType->isSC()) {
222	>	if (metExplicit) {
223	>	sprintf( painCave.errMsg,
224	>	"InteractionManager::initialize found more than one "
225	>	"explicit\n"
226	>	"\tmetallic interaction for atom types %s - %s\n",
227	>	atype1->getName().c_str(), atype2->getName().c_str());
228	>	painCave.severity = OPENMD_ERROR;
229	>	painCave.isFatal = 1;
230	>	simError();
231	>	}
232	>	// We found an explicit Sutton-Chen interaction.
233	>	// override all other metallic entries for this pair of atom types:
234	>	set<NonBondedInteraction*>::iterator it;
235	>	for (it = interactions_[key].begin();
236	>	it != interactions_[key].end(); ++it) {
237	>	InteractionFamily ifam = (*it)->getFamily();
238	>	if (ifam == METALLIC_FAMILY) interactions_[key].erase(*it);
239	>	}
240	>	interactions_[key].insert(sc_);
241	>	metExplicit = true;
242		}
243	<	interactions_[key].insert(sc_);
244	<	metExplicit = true;
243	>
244	>	if (nbiType->isMAW()) {
245	>	if (vdwExplicit) {
246	>	sprintf( painCave.errMsg,
247	>	"InteractionManager::initialize found more than one "
248	>	"explicit\n"
249	>	"\tvan der Waals interaction for atom types %s - %s\n",
250	>	atype1->getName().c_str(), atype2->getName().c_str());
251	>	painCave.severity = OPENMD_ERROR;
252	>	painCave.isFatal = 1;
253	>	simError();
254	>	}
255	>	// We found an explicit MAW interaction.
256	>	// override all other vdw entries for this pair of atom types:
257	>	set<NonBondedInteraction*>::iterator it;
258	>	for (it = interactions_[key].begin();
259	>	it != interactions_[key].end(); ++it) {
260	>	InteractionFamily ifam = (*it)->getFamily();
261	>	if (ifam == VANDERWAALS_FAMILY) interactions_[key].erase(*it);
262	>	}
263	>	interactions_[key].insert(maw_);
264	>	vdwExplicit = true;
265	>	}
266		}
267		}
268		}
269
270	<	// make sure every pair of atom types has a non-bonded interaction:
271	<	for (atype1 = atomTypes->beginType(i1); atype1 != NULL;
272	<	atype1 = atomTypes->nextType(i1)) {
273	<	for (atype2 = atomTypes->beginType(i2); atype2 != NULL;
274	<	atype2 = atomTypes->nextType(i2)) {
270	>
271	>	// Make sure every pair of atom types in this simulation has a
272	>	// non-bonded interaction. If not, just inform the user.
273	>
274	>	set<AtomType*> simTypes = info_->getSimulatedAtomTypes();
275	>	set<AtomType*>::iterator it, jt;
276	>
277	>	for (it = simTypes.begin(); it != simTypes.end(); ++it) {
278	>	atype1 = (*it);
279	>	for (jt = it; jt != simTypes.end(); ++jt) {
280	>	atype2 = (*jt);
281		key = make_pair(atype1, atype2);
282
283		if (interactions_[key].size() == 0) {
284		sprintf( painCave.errMsg,
285	<	"InteractionManager unable to find an appropriate non-bonded\n"
286	<	"\tinteraction for atom types %s - %s\n",
285	>	"InteractionManager could not find a matching non-bonded\n"
286	>	"\tinteraction for atom types %s - %s\n"
287	>	"\tProceeding without this interaction.\n",
288		atype1->getName().c_str(), atype2->getName().c_str());
289		painCave.severity = OPENMD_INFO;
290	<	painCave.isFatal = 1;
290	>	painCave.isFatal = 0;
291		simError();
292		}
293		}
294		}
295	<	}
295	>
296	>	initialized_ = true;
297	>	}
298	>
299	>	void InteractionManager::setCutoffRadius(RealType rcut) {
300	>
301	>	electrostatic_->setCutoffRadius(rcut);
302	>	eam_->setCutoffRadius(rcut);
303	>	}
304	>
305	>	void InteractionManager::setSwitchingRadius(RealType rswitch) {
306	>	electrostatic_->setSwitchingRadius(rswitch);
307	>	}
308
309	<	void InteractionManager::doPrePair(int atid1, int atid2, RealType rij, RealType rho_i_at_j, RealType *rho_j_at_i){
309	>	void InteractionManager::doPrePair(InteractionData idat){
310
311		if (!initialized_) initialize();
312	<
313	<	DensityData ddat;
312	>
313	>	// excluded interaction, so just return
314	>	if (idat.excluded) return;
315
241	–	ddat.atype1 = typeMap_[*atid1];
242	–	ddat.atype2 = typeMap_[*atid2];
243	–	ddat.rij = *rij;
244	–	ddat.rho_i_at_j = *rho_i_at_j;
245	–	ddat.rho_j_at_i = *rho_j_at_i;
246	–
247	–	pair<AtomType, AtomType> key = make_pair(ddat.atype1, ddat.atype2);
316		set<NonBondedInteraction*>::iterator it;
317
318	<	for (it = interactions_[key].begin(); it != interactions_[key].end(); ++it){
318	>	for (it = interactions_[ idat.atypes ].begin();
319	>	it != interactions_[ idat.atypes ].end(); ++it){
320		if ((*it)->getFamily() == METALLIC_FAMILY) {
321	<	dynamic_cast<MetallicInteraction>(it)->calcDensity(ddat);
321	>	dynamic_cast<MetallicInteraction>(it)->calcDensity(idat);
322		}
323		}
324
325		return;
326		}
327
328	<	void InteractionManager::doPreForce(int atid, RealType rho, RealType frho, RealType dfrhodrho){
328	>	void InteractionManager::doPreForce(SelfData sdat){
329
330		if (!initialized_) initialize();
331	<
332	<	FunctionalData fdat;
264	<
265	<	fdat.atype = typeMap_[*atid];
266	<	fdat.rho = *rho;
267	<	fdat.frho = *frho;
268	<	fdat.dfrhodrho = *dfrhodrho;
269	<
270	<	pair<AtomType, AtomType> key = make_pair(fdat.atype, fdat.atype);
331	>
332	>	pair<AtomType, AtomType> key = make_pair(sdat.atype, sdat.atype);
333		set<NonBondedInteraction*>::iterator it;
334
335		for (it = interactions_[key].begin(); it != interactions_[key].end(); ++it){
336		if ((*it)->getFamily() == METALLIC_FAMILY) {
337	<	dynamic_cast<MetallicInteraction>(it)->calcFunctional(fdat);
337	>	dynamic_cast<MetallicInteraction>(it)->calcFunctional(sdat);
338		}
339		}
340
341		return;
342		}
343
344	<	void InteractionManager::doPair(int atid1, int atid2, RealType d, RealType r, RealType r2, RealType rcut, RealType sw, RealType vdwMult,RealType electroMult, RealType pot, RealType vpair, RealType f1, RealType eFrame1, RealType eFrame2, RealType A1, RealType A2, RealType t1, RealType t2, RealType rho1, RealType rho2, RealType dfrho1, RealType dfrho2, RealType fshift1, RealType fshift2){
344	>	void InteractionManager::doPair(InteractionData idat){
345
346		if (!initialized_) initialize();
285	–
286	–	InteractionData idat;
287	–
288	–	idat.atype1 = typeMap_[*atid1];
289	–	idat.atype2 = typeMap_[*atid2];
290	–	idat.d = Vector3d(d);
291	–	idat.rij = *r;
292	–	idat.r2 = *r2;
293	–	idat.rcut = *rcut;
294	–	idat.sw = *sw;
295	–	idat.vdwMult = *vdwMult;
296	–	idat.electroMult = *electroMult;
297	–	idat.pot = *pot;
298	–	idat.vpair = *vpair;
299	–	idat.f1 = Vector3d(f1);
300	–	idat.eFrame1 = Mat3x3d(eFrame1);
301	–	idat.eFrame2 = Mat3x3d(eFrame2);
302	–	idat.A1 = RotMat3x3d(A1);
303	–	idat.A2 = RotMat3x3d(A2);
304	–	idat.t1 = Vector3d(t1);
305	–	idat.t2 = Vector3d(t2);
306	–	idat.rho1 = *rho1;
307	–	idat.rho2 = *rho2;
308	–	idat.dfrho1 = *dfrho1;
309	–	idat.dfrho2 = *dfrho2;
310	–	idat.fshift1 = *fshift1;
311	–	idat.fshift2 = *fshift2;
347
313	–	pair<AtomType, AtomType> key = make_pair(idat.atype1, idat.atype2);
348		set<NonBondedInteraction*>::iterator it;
349
350	<	for (it = interactions_[key].begin(); it != interactions_[key].end(); ++it)
351	<	(*it)->calcForce(idat);
318	<
319	<	f1[0] = idat.f1.x();
320	<	f1[1] = idat.f1.y();
321	<	f1[2] = idat.f1.z();
322	<
323	<	t1[0] = idat.t1.x();
324	<	t1[1] = idat.t1.y();
325	<	t1[2] = idat.t1.z();
326	<
327	<	t2[0] = idat.t2.x();
328	<	t2[1] = idat.t2.y();
329	<	t2[2] = idat.t2.z();
350	>	for (it = interactions_[ idat.atypes ].begin();
351	>	it != interactions_[ idat.atypes ].end(); ++it) {
352
353	<	return;
354	<	}
353	>	// electrostatics still has to worry about indirect
354	>	// contributions from excluded pairs of atoms:
355
356	<	void InteractionManager::doSkipCorrection(int atid1, int atid2, RealType d, RealType r, RealType skippedCharge1, RealType skippedCharge2, RealType sw, RealType electroMult, RealType pot, RealType vpair, RealType f1, RealType eFrame1, RealType eFrame2, RealType t1, RealType *t2){
357	<
336	<	if (!initialized_) initialize();
337	<
338	<	SkipCorrectionData skdat;
339	<
340	<	skdat.atype1 = typeMap_[*atid1];
341	<	skdat.atype2 = typeMap_[*atid2];
342	<	skdat.d = Vector3d(d);
343	<	skdat.rij = *r;
344	<	skdat.skippedCharge1 = *skippedCharge1;
345	<	skdat.skippedCharge2 = *skippedCharge2;
346	<	skdat.sw = *sw;
347	<	skdat.electroMult = *electroMult;
348	<	skdat.pot = *pot;
349	<	skdat.vpair = *vpair;
350	<	skdat.f1 = Vector3d(f1);
351	<	skdat.eFrame1 = Mat3x3d(eFrame1);
352	<	skdat.eFrame2 = Mat3x3d(eFrame2);
353	<	skdat.t1 = Vector3d(t1);
354	<	skdat.t2 = Vector3d(t2);
355	<
356	<	pair<AtomType, AtomType> key = make_pair(skdat.atype1, skdat.atype2);
357	<	set<NonBondedInteraction*>::iterator it;
358	<
359	<	for (it = interactions_[key].begin(); it != interactions_[key].end(); ++it){
360	<	if ((*it)->getFamily() == ELECTROSTATIC_FAMILY) {
361	<	dynamic_cast<ElectrostaticInteraction>(it)->calcSkipCorrection(skdat);
356	>	if (!idat.excluded \|\| (*it)->getFamily() == ELECTROSTATIC_FAMILY) {
357	>	(*it)->calcForce(idat);
358		}
359		}
360
365	–	f1[0] = skdat.f1.x();
366	–	f1[1] = skdat.f1.y();
367	–	f1[2] = skdat.f1.z();
368	–
369	–	t1[0] = skdat.t1.x();
370	–	t1[1] = skdat.t1.y();
371	–	t1[2] = skdat.t1.z();
372	–
373	–	t2[0] = skdat.t2.x();
374	–	t2[1] = skdat.t2.y();
375	–	t2[2] = skdat.t2.z();
376	–
361		return;
362		}
363
364	<	void InteractionManager::doSelfCorrection(int atid, RealType eFrame, RealType skippedCharge, RealType pot, RealType *t){
364	>	void InteractionManager::doSelfCorrection(SelfData sdat){
365
366		if (!initialized_) initialize();
367
368	<	SelfCorrectionData scdat;
385	<
386	<	scdat.atype = typeMap_[*atid];
387	<	scdat.eFrame = Mat3x3d(eFrame);
388	<	scdat.skippedCharge = *skippedCharge;
389	<	scdat.pot = *pot;
390	<	scdat.t = Vector3d(t);
391	<
392	<	pair<AtomType, AtomType> key = make_pair(scdat.atype, scdat.atype);
368	>	pair<AtomType, AtomType> key = make_pair(sdat.atype, sdat.atype);
369		set<NonBondedInteraction*>::iterator it;
370
371		for (it = interactions_[key].begin(); it != interactions_[key].end(); ++it){
372		if ((*it)->getFamily() == ELECTROSTATIC_FAMILY) {
373	<	dynamic_cast<ElectrostaticInteraction>(it)->calcSelfCorrection(scdat);
373	>	dynamic_cast<ElectrostaticInteraction>(it)->calcSelfCorrection(sdat);
374		}
375		}
376	<
401	<	t[0] = scdat.t.x();
402	<	t[1] = scdat.t.y();
403	<	t[2] = scdat.t.z();
404	<
376	>
377		return;
378		}
379
408	–
380		RealType InteractionManager::getSuggestedCutoffRadius(int *atid) {
381		if (!initialized_) initialize();
382
#	Line 416 \| Line 387 \| namespace OpenMD {
387		RealType cutoff = 0.0;
388
389		for (it = interactions_[key].begin(); it != interactions_[key].end(); ++it)
390	<	cutoff = max(cutoff, (*it)->getSuggestedCutoffRadius(atype, atype));
390	>	cutoff = max(cutoff, (*it)->getSuggestedCutoffRadius(key));
391		return cutoff;
392		}
393
394	<	} //end namespace OpenMD
395	<
425	<	extern "C" {
426	<
427	<	#define fortranDoPrePair FC_FUNC(do_prepair, DO_PREPAIR)
428	<	#define fortranDoPreForce FC_FUNC(do_preforce, DO_PREFORCE)
429	<	#define fortranDoPair FC_FUNC(do_pair, DO_PAIR)
430	<	#define fortranDoSkipCorrection FC_FUNC(do_skip_correction, DO_SKIP_CORRECTION)
431	<	#define fortranDoSelfCorrection FC_FUNC(do_self_correction, DO_SELF_CORRECTION)
432	<	#define fortranGetCutoff FC_FUNC(get_cutoff, GET_CUTOFF)
433	<
434	<	void fortranDoPrePair(int atid1, int atid2, RealType *rij,
435	<	RealType rho_i_at_j, RealType rho_j_at_i) {
436	<
437	<	return OpenMD::InteractionManager::Instance()->doPrePair(atid1, atid2, rij,
438	<	rho_i_at_j,
439	<	rho_j_at_i);
440	<	}
441	<	void fortranDoPreforce(int atid, RealType rho, RealType *frho,
442	<	RealType *dfrhodrho) {
394	>	RealType InteractionManager::getSuggestedCutoffRadius(AtomType* atype) {
395	>	if (!initialized_) initialize();
396
397	<	return OpenMD::InteractionManager::Instance()->doPreForce(atid, rho, frho,
398	<	dfrhodrho);
399	<	}
447	<
448	<	void fortranDoPair(int atid1, int atid2, RealType d, RealType r,
449	<	RealType r2, RealType rcut, RealType *sw,
450	<	RealType vdwMult, RealType electroMult, RealType *pot,
451	<	RealType vpair, RealType f1, RealType *eFrame1,
452	<	RealType eFrame2, RealType A1, RealType *A2,
453	<	RealType t1, RealType t2, RealType rho1, RealType rho2,
454	<	RealType dfrho1, RealType dfrho2, RealType *fshift1,
455	<	RealType *fshift2){
397	>	pair<AtomType, AtomType> key = make_pair(atype, atype);
398	>	set<NonBondedInteraction*>::iterator it;
399	>	RealType cutoff = 0.0;
400
401	<	return OpenMD::InteractionManager::Instance()->doPair(atid1, atid2, d, r,
402	<	r2, rcut, sw,
403	<	vdwMult, electroMult,
460	<	pot, vpair, f1,
461	<	eFrame1, eFrame2,
462	<	A1, A2, t1, t2, rho1,
463	<	rho2, dfrho1, dfrho2,
464	<	fshift1, fshift2);
401	>	for (it = interactions_[key].begin(); it != interactions_[key].end(); ++it)
402	>	cutoff = max(cutoff, (*it)->getSuggestedCutoffRadius(key));
403	>	return cutoff;
404		}
405	<
467	<	void fortranDoSkipCorrection(int atid1, int atid2, RealType *d,
468	<	RealType r, RealType skippedCharge1,
469	<	RealType skippedCharge2, RealType sw,
470	<	RealType electroMult, RealType pot,
471	<	RealType vpair, RealType f1,
472	<	RealType eFrame1, RealType eFrame2,
473	<	RealType t1, RealType t2){
474	<
475	<	return OpenMD::InteractionManager::Instance()->doSkipCorrection(atid1,
476	<	atid2, d,
477	<	r,
478	<	skippedCharge1,
479	<	skippedCharge2,
480	<	sw, electroMult, pot,
481	<	vpair, f1, eFrame1,
482	<	eFrame2, t1, t2);
483	<	}
484	<
485	<	void fortranDoSelfCorrection(int atid, RealType eFrame, RealType *skippedCharge,
486	<	RealType pot, RealType t) {
487	<
488	<	return OpenMD::InteractionManager::Instance()->doSelfCorrection(atid,
489	<	eFrame,
490	<	skippedCharge,
491	<	pot, t);
492	<	}
493	<	RealType fortranGetCutoff(int *atid) {
494	<	return OpenMD::InteractionManager::Instance()->getSuggestedCutoffRadius(atid);
495	<	}
496	<	}
405	>	} //end namespace OpenMD

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Comparing branches/development/src/nonbonded/InteractionManager.cpp (file contents): Revision 1505 by gezelter, Sun Oct 3 22:18:59 2010 UTC vs. Revision 1710 by gezelter, Fri May 18 21:44:02 2012 UTC

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Comparing branches/development/src/nonbonded/InteractionManager.cpp (file contents):
Revision 1505 by gezelter, Sun Oct 3 22:18:59 2010 UTC vs.
Revision 1710 by gezelter, Fri May 18 21:44:02 2012 UTC