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root/OpenMD/trunk/src/brains/ForceField.cpp

Comparing:
trunk/src/UseTheForce/ForceField.cpp (file contents), Revision 1275 by cli2, Fri Jul 4 20:54:29 2008 UTC vs.
branches/development/src/UseTheForce/ForceField.cpp (file contents), Revision 1710 by gezelter, Fri May 18 21:44:02 2012 UTC

#	Line 6 | Line 6
6		* redistribute this software in source and binary code form, provided
7		* that the following conditions are met:
8		*
9	<	* 1. Acknowledgement of the program authors must be made in any
10	<	*    publication of scientific results based in part on use of the
11	<	*    program.  An acceptable form of acknowledgement is citation of
12	<	*    the article in which the program was described (Matthew
13	<	*    A. Meineke, Charles F. Vardeman II, Teng Lin, Christopher
14	<	*    J. Fennell and J. Daniel Gezelter, "OOPSE: An Object-Oriented
15	<	*    Parallel Simulation Engine for Molecular Dynamics,"
16	<	*    J. Comput. Chem. 26, pp. 252-271 (2005))
17	<	*
18	<	* 2. Redistributions of source code must retain the above copyright
9	>	* 1. Redistributions of source code must retain the above copyright
10		*    notice, this list of conditions and the following disclaimer.
11		*
12	<	* 3. Redistributions in binary form must reproduce the above copyright
12	>	* 2. Redistributions in binary form must reproduce the above copyright
13		*    notice, this list of conditions and the following disclaimer in the
14		*    documentation and/or other materials provided with the
15		*    distribution.
#	Line 37 | Line 28
28		* arising out of the use of or inability to use software, even if the
29		* University of Notre Dame has been advised of the possibility of
30		* such damages.
31	+	*
32	+	* SUPPORT OPEN SCIENCE!  If you use OpenMD or its source code in your
33	+	* research, please cite the appropriate papers when you publish your
34	+	* work.  Good starting points are:
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).
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		/**
#	Line 51 | Line 52
52		#include "UseTheForce/ForceField.hpp"
53		#include "utils/simError.h"
54		#include "utils/Tuple.hpp"
55	<	#include "UseTheForce/DarkSide/atype_interface.h"
55	<	#include "UseTheForce/DarkSide/fForceOptions_interface.h"
56	<	#include "UseTheForce/DarkSide/switcheroo_interface.h"
57	<	namespace oopse {
55	>	#include "types/LennardJonesAdapter.hpp"
56
57	+	namespace OpenMD {
58	+
59		ForceField::ForceField() {
60	+
61		char* tempPath;
62		tempPath = getenv("FORCE_PARAM_PATH");
63	<
63	>
64		if (tempPath == NULL) {
65		//convert a macro from compiler to a string in c++
66		STR_DEFINE(ffPath_, FRC_PATH );
#	Line 68 | Line 69 | namespace oopse {
69		}
70		}
71
72	<
73	<	ForceField::~ForceField() {
74	<	deleteAtypes();
75	<	deleteSwitch();
76	<	}
77	<
72	>	/**
73	>	* getAtomType by string
74	>	*
75	>	* finds the requested atom type in this force field using the string
76	>	* name of the atom type.
77	>	*/
78		AtomType* ForceField::getAtomType(const std::string &at) {
79		std::vector<std::string> keys;
80		keys.push_back(at);
81		return atomTypeCont_.find(keys);
82		}
83
84	+	/**
85	+	* getAtomType by ident
86	+	*
87	+	* finds the requested atom type in this force field using the
88	+	* integer ident instead of the string name of the atom type.
89	+	*/
90	+	AtomType* ForceField::getAtomType(int ident) {
91	+	std::string at = atypeIdentToName.find(ident)->second;
92	+	return getAtomType(at);
93	+	}
94	+
95		BondType* ForceField::getBondType(const std::string &at1,
96		const std::string &at2) {
97		std::vector<std::string> keys;
#	Line 133 | Line 145 | namespace oopse {
145		ii++;
146		}
147
136	–	// sort the foundBonds by the score:
148
149	<	std::sort(foundBonds.begin(), foundBonds.end());
150	<
151	<	int bestScore = foundBonds[0].first;
152	<	std::vector<std::string> theKeys = foundBonds[0].second;
153	<
154	<	std::cout << "best matching bond = " << theKeys[0] << "\t" << theKeys[1]  << "\t(score = "<< bestScore << ")\n";
155	<	BondType* bestType = bondTypeCont_.find(theKeys);
156	<	if (bestType)
157	<	return bestType;
158	<	else {
159	<	//if no exact match found, try wild card match
160	<	return bondTypeCont_.find(keys, wildCardAtomTypeName_);
149	>	if (foundBonds.size() > 0) {
150	>	// sort the foundBonds by the score:
151	>	std::sort(foundBonds.begin(), foundBonds.end());
152	>
153	>	int bestScore = foundBonds[0].first;
154	>	std::vector<std::string> theKeys = foundBonds[0].second;
155	>
156	>	BondType* bestType = bondTypeCont_.find(theKeys);
157	>
158	>	return bestType;
159	>	} else {
160	>	//if no exact match found, try wild card match
161	>	return bondTypeCont_.find(keys, wildCardAtomTypeName_);
162		}
163		}
164		}
#	Line 220 | Line 232 | namespace oopse {
232		jj++;
233		}
234
235	<	std::sort(foundBends.begin(), foundBends.end());
236	<
237	<	int jscore = foundBends[0].first;
238	<	int ikscore = foundBends[0].second;
239	<	std::vector<std::string> theKeys = foundBends[0].third;
240	<
241	<	std::cout << "best matching bend = " << theKeys[0] << "\t" <<theKeys[1]  << "\t" << theKeys[2] << "\t(scores = "<< jscore << "\t" << ikscore << ")\n";
242	<
243	<	BendType* bestType = bendTypeCont_.find(theKeys);
232	<	if (bestType)
233	<	return bestType;
234	<	else {
235	<
235	>	if (foundBends.size() > 0) {
236	>	std::sort(foundBends.begin(), foundBends.end());
237	>	int jscore = foundBends[0].first;
238	>	int ikscore = foundBends[0].second;
239	>	std::vector<std::string> theKeys = foundBends[0].third;
240	>
241	>	BendType* bestType = bendTypeCont_.find(theKeys);
242	>	return bestType;
243	>	} else {
244		//if no exact match found, try wild card match
245		return bendTypeCont_.find(keys, wildCardAtomTypeName_);
246		}
247		}
248		}
249
242	–
250		TorsionType* ForceField::getTorsionType(const std::string &at1,
251		const std::string &at2,
252		const std::string &at3,
#	Line 327 | Line 334 | namespace oopse {
334		jj++;
335		}
336
337	<	std::sort(foundTorsions.begin(), foundTorsions.end());
338	<
339	<	int jkscore = foundTorsions[0].first;
340	<	int ilscore = foundTorsions[0].second;
341	<	std::vector<std::string> theKeys = foundTorsions[0].third;
342	<
343	<	std::cout << "best matching torsion = " << theKeys[0] << "\t" <<theKeys[1]  << "\t" << theKeys[2] << "\t" << theKeys[3] << "\t(scores = "<< jkscore << "\t" << ilscore << ")\n";
344	<
338	<
339	<	TorsionType* bestType = torsionTypeCont_.find(theKeys);
340	<	if (bestType) {
341	<	return bestType;
337	>	if (foundTorsions.size() > 0) {
338	>	std::sort(foundTorsions.begin(), foundTorsions.end());
339	>	int jkscore = foundTorsions[0].first;
340	>	int ilscore = foundTorsions[0].second;
341	>	std::vector<std::string> theKeys = foundTorsions[0].third;
342	>
343	>	TorsionType* bestType = torsionTypeCont_.find(theKeys);
344	>	return bestType;
345		} else {
346		//if no exact match found, try wild card match
347		return torsionTypeCont_.find(keys, wildCardAtomTypeName_);
#	Line 357 | Line 360 | namespace oopse {
360		keys.push_back(at4);
361
362		//try exact match first
363	<	InversionType* inversionType = inversionTypeCont_.find(keys);
363	>	InversionType* inversionType = inversionTypeCont_.permutedFindSkippingFirstElement(keys);
364		if (inversionType) {
365		return inversionType;
366		} else {
#	Line 419 | Line 422 | namespace oopse {
422		myKeys.push_back((*k)->getName());
423		myKeys.push_back((*l)->getName());
424
425	<	InversionType* inversionType = inversionTypeCont_.find(myKeys);
425	>	InversionType* inversionType = inversionTypeCont_.permutedFindSkippingFirstElement(myKeys);
426		if (inversionType) {
427		foundInversions.push_back( make_tuple3(Iscore, JKLscore, myKeys) );
428		}
#	Line 431 | Line 434 | namespace oopse {
434		}
435		jj++;
436		}
437	<
438	<	std::sort(foundInversions.begin(), foundInversions.end());
439	<
440	<	int iscore = foundInversions[0].first;
441	<	int jklscore = foundInversions[0].second;
442	<	std::vector<std::string> theKeys = foundInversions[0].third;
443	<
444	<	std::cout << "best matching inversion = " << theKeys[0] << "\t" <<theKeys[1]  << "\t" << theKeys[2] << "\t" << theKeys[3] << "\t(scores = "<< iscore << "\t" << jklscore << ")\n";
445	<
443	<
444	<	InversionType* bestType = inversionTypeCont_.find(theKeys);
445	<	if (bestType) {
446	<	return bestType;
437	>
438	>	if (foundInversions.size() > 0) {
439	>	std::sort(foundInversions.begin(), foundInversions.end());
440	>	int iscore = foundInversions[0].first;
441	>	int jklscore = foundInversions[0].second;
442	>	std::vector<std::string> theKeys = foundInversions[0].third;
443	>
444	>	InversionType* bestType = inversionTypeCont_.permutedFindSkippingFirstElement(theKeys);
445	>	return bestType;
446		} else {
447		//if no exact match found, try wild card match
448		return inversionTypeCont_.find(keys, wildCardAtomTypeName_);
#	Line 452 | Line 451 | namespace oopse {
451		}
452
453		NonBondedInteractionType* ForceField::getNonBondedInteractionType(const std::string &at1, const std::string &at2) {
454	+
455		std::vector<std::string> keys;
456		keys.push_back(at1);
457		keys.push_back(at2);
#	Line 461 | Line 461 | namespace oopse {
461		if (nbiType) {
462		return nbiType;
463		} else {
464	<	//if no exact match found, try wild card match
465	<	return nonBondedInteractionTypeCont_.find(keys, wildCardAtomTypeName_);
466	<	}
464	>	AtomType* atype1;
465	>	AtomType* atype2;
466	>	std::vector<std::string> at1key;
467	>	at1key.push_back(at1);
468	>	atype1 = atomTypeCont_.find(at1key);
469	>
470	>	std::vector<std::string> at2key;
471	>	at2key.push_back(at2);
472	>	atype2 = atomTypeCont_.find(at2key);
473	>
474	>	// query atom types for their chains of responsibility
475	>	std::vector<AtomType*> at1Chain = atype1->allYourBase();
476	>	std::vector<AtomType*> at2Chain = atype2->allYourBase();
477	>
478	>	std::vector<AtomType*>::iterator i;
479	>	std::vector<AtomType*>::iterator j;
480	>
481	>	int ii = 0;
482	>	int jj = 0;
483	>	int nbiTypeScore;
484	>
485	>	std::vector<std::pair<int, std::vector<std::string> > > foundNBI;
486	>
487	>	for (i = at1Chain.begin(); i != at1Chain.end(); i++) {
488	>	jj = 0;
489	>	for (j = at2Chain.begin(); j != at2Chain.end(); j++) {
490	>
491	>	nbiTypeScore = ii + jj;
492	>
493	>	std::vector<std::string> myKeys;
494	>	myKeys.push_back((*i)->getName());
495	>	myKeys.push_back((*j)->getName());
496	>
497	>	NonBondedInteractionType* nbiType = nonBondedInteractionTypeCont_.find(myKeys);
498	>	if (nbiType) {
499	>	foundNBI.push_back(std::make_pair(nbiTypeScore, myKeys));
500	>	}
501	>	jj++;
502	>	}
503	>	ii++;
504	>	}
505	>
506	>
507	>	if (foundNBI.size() > 0) {
508	>	// sort the foundNBI by the score:
509	>	std::sort(foundNBI.begin(), foundNBI.end());
510	>
511	>	int bestScore = foundNBI[0].first;
512	>	std::vector<std::string> theKeys = foundNBI[0].second;
513	>
514	>	NonBondedInteractionType* bestType = nonBondedInteractionTypeCont_.find(theKeys);
515	>	return bestType;
516	>	} else {
517	>	//if no exact match found, try wild card match
518	>	return nonBondedInteractionTypeCont_.find(keys, wildCardAtomTypeName_);
519	>	}
520	>	}
521		}
522
523		BondType* ForceField::getExactBondType(const std::string &at1,
#	Line 519 | Line 573 | namespace oopse {
573		bool ForceField::addAtomType(const std::string &at, AtomType* atomType) {
574		std::vector<std::string> keys;
575		keys.push_back(at);
576	+	atypeIdentToName[atomType->getIdent()] = at;
577		return atomTypeCont_.add(keys, atomType);
578		}
579
580	+	bool ForceField::replaceAtomType(const std::string &at, AtomType* atomType) {
581	+	std::vector<std::string> keys;
582	+	keys.push_back(at);
583	+	atypeIdentToName[atomType->getIdent()] = at;
584	+	return atomTypeCont_.replace(keys, atomType);
585	+	}
586	+
587		bool ForceField::addBondType(const std::string &at1, const std::string &at2,
588		BondType* bondType) {
589		std::vector<std::string> keys;
#	Line 575 | Line 637 | namespace oopse {
637		}
638
639		RealType ForceField::getRcutFromAtomType(AtomType* at) {
578	–	/**@todo */
579	–	GenericData* data;
640		RealType rcut = 0.0;
641
642	<	if (at->isLennardJones()) {
643	<	data = at->getPropertyByName("LennardJones");
644	<	if (data != NULL) {
585	<	LJParamGenericData* ljData = dynamic_cast<LJParamGenericData*>(data);
586	<
587	<	if (ljData != NULL) {
588	<	LJParam ljParam = ljData->getData();
589	<
590	<	//by default use 2.5*sigma as cutoff radius
591	<	rcut = 2.5 * ljParam.sigma;
592	<
593	<	} else {
594	<	sprintf( painCave.errMsg,
595	<	"Can not cast GenericData to LJParam\n");
596	<	painCave.severity = OOPSE_ERROR;
597	<	painCave.isFatal = 1;
598	<	simError();
599	<	}
600	<	} else {
601	<	sprintf( painCave.errMsg, "Can not find Parameters for LennardJones\n");
602	<	painCave.severity = OOPSE_ERROR;
603	<	painCave.isFatal = 1;
604	<	simError();
605	<	}
642	>	LennardJonesAdapter lja = LennardJonesAdapter(at);
643	>	if (lja.isLennardJones()) {
644	>	rcut = 2.5 * lja.getSigma();
645		}
646		return rcut;
647		}
#	Line 629 | Line 668 | namespace oopse {
668		"\tHave you tried setting the FORCE_PARAM_PATH environment "
669		"variable?\n",
670		forceFieldFilename.c_str() );
671	<	painCave.severity = OOPSE_ERROR;
671	>	painCave.severity = OPENMD_ERROR;
672		painCave.isFatal = 1;
673		simError();
674		}
#	Line 637 | Line 676 | namespace oopse {
676		return ffStream;
677		}
678
679	<	void ForceField::setFortranForceOptions(){
641	<	ForceOptions theseFortranOptions;
642	<	forceFieldOptions_.makeFortranOptions(theseFortranOptions);
643	<	setfForceOptions(&theseFortranOptions);
644	<	}
645	<	} //end namespace oopse
679	>	} //end namespace OpenMD

Comparing:
trunk/src/UseTheForce/ForceField.cpp (property svn:keywords), Revision 1275 by cli2, Fri Jul 4 20:54:29 2008 UTC vs.
branches/development/src/UseTheForce/ForceField.cpp (property svn:keywords), Revision 1710 by gezelter, Fri May 18 21:44:02 2012 UTC

#	Line 0 | Line 1
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