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root/OpenMD/branches/development/src/primitives/RigidBody.cpp

Comparing:
trunk/src/primitives/RigidBody.cpp (file contents), Revision 770 by tim, Fri Dec 2 15:38:03 2005 UTC vs.
branches/development/src/primitives/RigidBody.cpp (file contents), Revision 1844 by gezelter, Wed Jan 30 14:43:08 2013 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		#include <algorithm>
43		#include <math.h>
44		#include "primitives/RigidBody.hpp"
45		#include "utils/simError.h"
46		#include "utils/NumericConstant.hpp"
47	<	namespace oopse {
48	<
49	<	RigidBody::RigidBody() : StuntDouble(otRigidBody, &Snapshot::rigidbodyData), inertiaTensor_(0.0){
50	<
47	>	namespace OpenMD {
48	>
49	>	RigidBody::RigidBody() : StuntDouble(otRigidBody, &Snapshot::rigidbodyData),
50	>	inertiaTensor_(0.0){
51		}
52	<
52	>
53		void RigidBody::setPrevA(const RotMat3x3d& a) {
54		((snapshotMan_->getPrevSnapshot())->*storage_).aMat[localIndex_] = a;
55	<	//((snapshotMan_->getPrevSnapshot())->*storage_).electroFrame[localIndex_] = a.transpose() * sU_;
56	<
56	<	for (int i =0 ; i < atoms_.size(); ++i){
55	>
56	>	for (unsigned int i = 0 ; i < atoms_.size(); ++i){
57		if (atoms_[i]->isDirectional()) {
58	<	atoms_[i]->setPrevA(a * refOrients_[i]);
58	>	atoms_[i]->setPrevA(refOrients_[i].transpose() * a);
59		}
60		}
61	<
61	>
62		}
63	<
64	<
63	>
64	>
65		void RigidBody::setA(const RotMat3x3d& a) {
66		((snapshotMan_->getCurrentSnapshot())->*storage_).aMat[localIndex_] = a;
67	–	//((snapshotMan_->getCurrentSnapshot())->*storage_).electroFrame[localIndex_] = a.transpose() * sU_;
67
68	<	for (int i =0 ; i < atoms_.size(); ++i){
68	>	for (unsigned int i = 0 ; i < atoms_.size(); ++i){
69		if (atoms_[i]->isDirectional()) {
70	<	atoms_[i]->setA(a * refOrients_[i]);
70	>	atoms_[i]->setA(refOrients_[i].transpose() * a);
71		}
72		}
73		}
74	<
74	>
75		void RigidBody::setA(const RotMat3x3d& a, int snapshotNo) {
76		((snapshotMan_->getSnapshot(snapshotNo))->*storage_).aMat[localIndex_] = a;
77	<	//((snapshotMan_->getSnapshot(snapshotNo))->*storage_).electroFrame[localIndex_] = a.transpose() * sU_;
78	<
80	<	for (int i =0 ; i < atoms_.size(); ++i){
77	>
78	>	for (unsigned int i = 0 ; i < atoms_.size(); ++i){
79		if (atoms_[i]->isDirectional()) {
80	<	atoms_[i]->setA(a * refOrients_[i], snapshotNo);
80	>	atoms_[i]->setA(refOrients_[i].transpose() * a, snapshotNo);
81		}
82		}
83	<
83	>
84		}
85	<
85	>
86		Mat3x3d RigidBody::getI() {
87		return inertiaTensor_;
88		}
89	<
90	<	std::vector<double> RigidBody::getGrad() {
91	<	std::vector<double> grad(6, 0.0);
89	>
90	>	std::vector<RealType> RigidBody::getGrad() {
91	>	std::vector<RealType> grad(6, 0.0);
92		Vector3d force;
93		Vector3d torque;
94		Vector3d myEuler;
95	<	double phi, theta, psi;
96	<	double cphi, sphi, ctheta, stheta;
95	>	RealType phi, theta;
96	>	// RealType psi;
97	>	RealType cphi, sphi, ctheta, stheta;
98		Vector3d ephi;
99		Vector3d etheta;
100		Vector3d epsi;
101	<
101	>
102		force = getFrc();
103		torque =getTrq();
104		myEuler = getA().toEulerAngles();
105	<
105	>
106		phi = myEuler[0];
107		theta = myEuler[1];
108	<	psi = myEuler[2];
109	<
108	>	// psi = myEuler[2];
109	>
110		cphi = cos(phi);
111		sphi = sin(phi);
112		ctheta = cos(theta);
113		stheta = sin(theta);
114	<
114	>
115		// get unit vectors along the phi, theta and psi rotation axes
116	<
116	>
117		ephi[0] = 0.0;
118		ephi[1] = 0.0;
119		ephi[2] = 1.0;
120	<
120	>
121	>	//etheta[0] = -sphi;
122	>	//etheta[1] =  cphi;
123	>	//etheta[2] =  0.0;
124	>
125		etheta[0] = cphi;
126		etheta[1] = sphi;
127	<	etheta[2] = 0.0;
128	<
127	>	etheta[2] =  0.0;
128	>
129		epsi[0] = stheta * cphi;
130		epsi[1] = stheta * sphi;
131		epsi[2] = ctheta;
132	<
132	>
133		//gradient is equal to -force
134		for (int j = 0 ; j<3; j++)
135		grad[j] = -force[j];
136	<
136	>
137		for (int j = 0; j < 3; j++ ) {
138	<
138	>
139		grad[3] += torque[j]*ephi[j];
140		grad[4] += torque[j]*etheta[j];
141		grad[5] += torque[j]*epsi[j];
142	<
142	>
143		}
144
145		return grad;
146		}
147	<
147	>
148		void RigidBody::accept(BaseVisitor* v) {
149		v->visit(this);
150		}
151
152		/**@todo need modification */
153		void  RigidBody::calcRefCoords() {
154	<	double mtmp;
154	>	RealType mtmp;
155		Vector3d refCOM(0.0);
156		mass_ = 0.0;
157		for (std::size_t i = 0; i < atoms_.size(); ++i) {
#	Line 157 | Line 160 | namespace oopse {
160		refCOM += refCoords_[i]*mtmp;
161		}
162		refCOM /= mass_;
163	<
163	>
164		// Next, move the origin of the reference coordinate system to the COM:
165		for (std::size_t i = 0; i < atoms_.size(); ++i) {
166		refCoords_[i] -= refCOM;
#	Line 169 | Line 172 | namespace oopse {
172		Mat3x3d IAtom(0.0);
173		mtmp = atoms_[i]->getMass();
174		IAtom -= outProduct(refCoords_[i], refCoords_[i]) * mtmp;
175	<	double r2 = refCoords_[i].lengthSquare();
175	>	RealType r2 = refCoords_[i].lengthSquare();
176		IAtom(0, 0) += mtmp * r2;
177		IAtom(1, 1) += mtmp * r2;
178		IAtom(2, 2) += mtmp * r2;
179		Itmp += IAtom;
180	<
180	>
181		//project the inertial moment of directional atoms into this rigid body
182		if (atoms_[i]->isDirectional()) {
183		Itmp += refOrients_[i].transpose() * atoms_[i]->getI() * refOrients_[i];
#	Line 194 | Line 197 | namespace oopse {
197
198		int nLinearAxis = 0;
199		for (int i = 0; i < 3; i++) {
200	<	if (fabs(evals[i]) < oopse::epsilon) {
200	>	if (fabs(evals[i]) < OpenMD::epsilon) {
201		linear_ = true;
202		linearAxis_ = i;
203		++ nLinearAxis;
#	Line 204 | Line 207 | namespace oopse {
207		if (nLinearAxis > 1) {
208		sprintf( painCave.errMsg,
209		"RigidBody error.\n"
210	<	"\tOOPSE found more than one axis in this rigid body with a vanishing \n"
210	>	"\tOpenMD found more than one axis in this rigid body with a vanishing \n"
211		"\tmoment of inertia.  This can happen in one of three ways:\n"
212		"\t 1) Only one atom was specified, or \n"
213		"\t 2) All atoms were specified at the same location, or\n"
#	Line 224 | Line 227 | namespace oopse {
227		Vector3d rpos;
228		Vector3d frc(0.0);
229		Vector3d trq(0.0);
230	+	Vector3d ef(0.0);
231		Vector3d pos = this->getPos();
232	<	for (int i = 0; i < atoms_.size(); i++) {
232	>	AtomType* atype;
233	>	int eCount = 0;
234	>
235	>	int sl = ((snapshotMan_->getCurrentSnapshot())->*storage_).getStorageLayout();
236	>
237	>	for (unsigned int i = 0; i < atoms_.size(); i++) {
238
239	+	atype = atoms_[i]->getAtomType();
240	+
241		afrc = atoms_[i]->getFrc();
242		apos = atoms_[i]->getPos();
243		rpos = apos - pos;
#	Line 244 | Line 255 | namespace oopse {
255		atrq = atoms_[i]->getTrq();
256		trq += atrq;
257		}
258	+
259	+	if ((sl & DataStorage::dslElectricField) && (atype->isElectrostatic())) {
260	+	ef += atoms_[i]->getElectricField();
261	+	eCount++;
262	+	}
263	+	}
264	+	addFrc(frc);
265	+	addTrq(trq);
266	+
267	+	if (sl & DataStorage::dslElectricField)  {
268	+	ef /= eCount;
269	+	setElectricField(ef);
270	+	}
271	+
272	+	}
273	+
274	+	Mat3x3d RigidBody::calcForcesAndTorquesAndVirial() {
275	+	Vector3d afrc;
276	+	Vector3d atrq;
277	+	Vector3d apos;
278	+	Vector3d rpos;
279	+	Vector3d dfrc;
280	+	Vector3d frc(0.0);
281	+	Vector3d trq(0.0);
282	+	Vector3d ef(0.0);
283	+	AtomType* atype;
284	+	int eCount = 0;
285	+
286	+	Vector3d pos = this->getPos();
287	+	Mat3x3d tau_(0.0);
288	+
289	+	int sl = ((snapshotMan_->getCurrentSnapshot())->*storage_).getStorageLayout();
290	+
291	+	for (unsigned int i = 0; i < atoms_.size(); i++) {
292	+
293	+	afrc = atoms_[i]->getFrc();
294	+	apos = atoms_[i]->getPos();
295	+	rpos = apos - pos;
296
297	+	frc += afrc;
298	+
299	+	trq[0] += rpos[1]*afrc[2] - rpos[2]*afrc[1];
300	+	trq[1] += rpos[2]*afrc[0] - rpos[0]*afrc[2];
301	+	trq[2] += rpos[0]*afrc[1] - rpos[1]*afrc[0];
302	+
303	+	// If the atom has a torque associated with it, then we also need to
304	+	// migrate the torques onto the center of mass:
305	+
306	+	if (atoms_[i]->isDirectional()) {
307	+	atrq = atoms_[i]->getTrq();
308	+	trq += atrq;
309	+	}
310	+	if ((sl & DataStorage::dslElectricField) && (atype->isElectrostatic())) {
311	+	ef += atoms_[i]->getElectricField();
312	+	eCount++;
313	+	}
314	+
315	+	tau_(0,0) -= rpos[0]*afrc[0];
316	+	tau_(0,1) -= rpos[0]*afrc[1];
317	+	tau_(0,2) -= rpos[0]*afrc[2];
318	+	tau_(1,0) -= rpos[1]*afrc[0];
319	+	tau_(1,1) -= rpos[1]*afrc[1];
320	+	tau_(1,2) -= rpos[1]*afrc[2];
321	+	tau_(2,0) -= rpos[2]*afrc[0];
322	+	tau_(2,1) -= rpos[2]*afrc[1];
323	+	tau_(2,2) -= rpos[2]*afrc[2];
324	+
325		}
326	<
327	<	setFrc(frc);
328	<	setTrq(trq);
329	<
326	>	addFrc(frc);
327	>	addTrq(trq);
328	>
329	>	if (sl & DataStorage::dslElectricField) {
330	>	ef /= eCount;
331	>	setElectricField(ef);
332	>	}
333	>
334	>	return tau_;
335		}
336
337		void  RigidBody::updateAtoms() {
#	Line 271 | Line 353 | namespace oopse {
353		if (atoms_[i]->isDirectional()) {
354
355		dAtom = (DirectionalAtom *) atoms_[i];
356	<	dAtom->setA(refOrients_[i] * a);
356	>	dAtom->setA(refOrients_[i].transpose() * a);
357		}
358
359		}
#	Line 298 | Line 380 | namespace oopse {
380		if (atoms_[i]->isDirectional()) {
381
382		dAtom = (DirectionalAtom *) atoms_[i];
383	<	dAtom->setA(refOrients_[i] * a, frame);
383	>	dAtom->setA(refOrients_[i].transpose() * a, frame);
384		}
385
386		}
#	Line 328 | Line 410 | namespace oopse {
410
411
412		Vector3d velRot;
413	<	for (int i =0 ; i < refCoords_.size(); ++i) {
413	>	for (unsigned int i = 0 ; i < refCoords_.size(); ++i) {
414		atoms_[i]->setVel(rbVel + mat * refCoords_[i]);
415		}
416
#	Line 357 | Line 439 | namespace oopse {
439
440
441		Vector3d velRot;
442	<	for (int i =0 ; i < refCoords_.size(); ++i) {
442	>	for (unsigned int i = 0 ; i < refCoords_.size(); ++i) {
443		atoms_[i]->setVel(rbVel + mat * refCoords_[i], frame);
444		}
445

Comparing:
trunk/src/primitives/RigidBody.cpp (property svn:keywords), Revision 770 by tim, Fri Dec 2 15:38:03 2005 UTC vs.
branches/development/src/primitives/RigidBody.cpp (property svn:keywords), Revision 1844 by gezelter, Wed Jan 30 14:43:08 2013 UTC

#	Line 0 | Line 1
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