[ViewVC] Diff of: group/trunk/OOPSE/libmdtools/SimInfo.cpp

Comparing trunk/OOPSE/libmdtools/SimInfo.cpp (file contents):
Revision 859 by mmeineke, Mon Nov 10 21:50:36 2003 UTC vs.
Revision 1127 by tim, Tue Apr 20 16:56:40 2004 UTC

#	Line 12 \| Line 12 \| using namespace std;
12
13		#include "fortranWrappers.hpp"
14
15	+	#include "MatVec3.h"
16	+
17		#ifdef IS_MPI
18		#include "mpiSimulation.hpp"
19		#endif
#	Line 20 \| Line 22 \| inline double roundMe( double x ){
22		return ( x >= 0 ) ? floor( x + 0.5 ) : ceil( x - 0.5 );
23		}
24
25	+	inline double min( double a, double b ){
26	+	return (a < b ) ? a : b;
27	+	}
28
29		SimInfo* currentInfo;
30
31		SimInfo::SimInfo(){
32	<	excludes = NULL;
32	>
33		n_constraints = 0;
34		nZconstraints = 0;
35		n_oriented = 0;
#	Line 46 \| Line 51 \| SimInfo::SimInfo(){
51
52		resetTime = 1e99;
53
54	+	orthoRhombic = 0;
55		orthoTolerance = 1E-6;
56		useInitXSstate = true;
57
58		usePBC = 0;
59		useLJ = 0;
60		useSticky = 0;
61	<	useDipole = 0;
61	>	useCharges = 0;
62	>	useDipoles = 0;
63		useReactionField = 0;
64		useGB = 0;
65		useEAM = 0;
66
67	+	excludes = Exclude::Instance();
68	+
69		myConfiguration = new SimState();
70
71	+	has_minimizer = false;
72	+	the_minimizer =NULL;
73	+
74		wrapMeSimInfo( this );
75		}
76
#	Line 176 \| Line 188 \| void SimInfo::calcHmatInv( void ) {
188
189		if( orthoRhombic ){
190		sprintf( painCave.errMsg,
191	<	"Hmat is switching from Non-Orthorhombic to OrthoRhombic\n"
192	<	" If this is a bad thing, change the orthoBoxTolerance( currently %G ).\n",
191	>	"OOPSE is switching from the default Non-Orthorhombic\n"
192	>	"\tto the faster Orthorhombic periodic boundary computations.\n"
193	>	"\tThis is usually a good thing, but if you wan't the\n"
194	>	"\tNon-Orthorhombic computations, make the orthoBoxTolerance\n"
195	>	"\tvariable ( currently set to %G ) smaller.\n",
196		orthoTolerance);
197		simError();
198		}
199		else {
200		sprintf( painCave.errMsg,
201	<	"Hmat is switching from Orthorhombic to Non-OrthoRhombic\n"
202	<	" If this is a bad thing, change the orthoBoxTolerance( currently %G ).\n",
201	>	"OOPSE is switching from the faster Orthorhombic to the more\n"
202	>	"\tflexible Non-Orthorhombic periodic boundary computations.\n"
203	>	"\tThis is usually because the box has deformed under\n"
204	>	"\tNPTf integration. If you wan't to live on the edge with\n"
205	>	"\tthe Orthorhombic computations, make the orthoBoxTolerance\n"
206	>	"\tvariable ( currently set to %G ) larger.\n",
207		orthoTolerance);
208		simError();
209		}
210		}
211		}
212
194	–	double SimInfo::matDet3(double a[3][3]) {
195	–	int i, j, k;
196	–	double determinant;
197	–
198	–	determinant = 0.0;
199	–
200	–	for(i = 0; i < 3; i++) {
201	–	j = (i+1)%3;
202	–	k = (i+2)%3;
203	–
204	–	determinant += a[0][i] * (a[1][j]a[2][k] - a[1][k]a[2][j]);
205	–	}
206	–
207	–	return determinant;
208	–	}
209	–
210	–	void SimInfo::invertMat3(double a[3][3], double b[3][3]) {
211	–
212	–	int i, j, k, l, m, n;
213	–	double determinant;
214	–
215	–	determinant = matDet3( a );
216	–
217	–	if (determinant == 0.0) {
218	–	sprintf( painCave.errMsg,
219	–	"Can't invert a matrix with a zero determinant!\n");
220	–	painCave.isFatal = 1;
221	–	simError();
222	–	}
223	–
224	–	for (i=0; i < 3; i++) {
225	–	j = (i+1)%3;
226	–	k = (i+2)%3;
227	–	for(l = 0; l < 3; l++) {
228	–	m = (l+1)%3;
229	–	n = (l+2)%3;
230	–
231	–	b[l][i] = (a[j][m]a[k][n] - a[j][n]a[k][m]) / determinant;
232	–	}
233	–	}
234	–	}
235	–
236	–	void SimInfo::matMul3(double a[3][3], double b[3][3], double c[3][3]) {
237	–	double r00, r01, r02, r10, r11, r12, r20, r21, r22;
238	–
239	–	r00 = a[0][0]b[0][0] + a[0][1]b[1][0] + a[0][2]*b[2][0];
240	–	r01 = a[0][0]b[0][1] + a[0][1]b[1][1] + a[0][2]*b[2][1];
241	–	r02 = a[0][0]b[0][2] + a[0][1]b[1][2] + a[0][2]*b[2][2];
242	–
243	–	r10 = a[1][0]b[0][0] + a[1][1]b[1][0] + a[1][2]*b[2][0];
244	–	r11 = a[1][0]b[0][1] + a[1][1]b[1][1] + a[1][2]*b[2][1];
245	–	r12 = a[1][0]b[0][2] + a[1][1]b[1][2] + a[1][2]*b[2][2];
246	–
247	–	r20 = a[2][0]b[0][0] + a[2][1]b[1][0] + a[2][2]*b[2][0];
248	–	r21 = a[2][0]b[0][1] + a[2][1]b[1][1] + a[2][2]*b[2][1];
249	–	r22 = a[2][0]b[0][2] + a[2][1]b[1][2] + a[2][2]*b[2][2];
250	–
251	–	c[0][0] = r00; c[0][1] = r01; c[0][2] = r02;
252	–	c[1][0] = r10; c[1][1] = r11; c[1][2] = r12;
253	–	c[2][0] = r20; c[2][1] = r21; c[2][2] = r22;
254	–	}
255	–
256	–	void SimInfo::matVecMul3(double m[3][3], double inVec[3], double outVec[3]) {
257	–	double a0, a1, a2;
258	–
259	–	a0 = inVec[0]; a1 = inVec[1]; a2 = inVec[2];
260	–
261	–	outVec[0] = m[0][0]a0 + m[0][1]a1 + m[0][2]*a2;
262	–	outVec[1] = m[1][0]a0 + m[1][1]a1 + m[1][2]*a2;
263	–	outVec[2] = m[2][0]a0 + m[2][1]a1 + m[2][2]*a2;
264	–	}
265	–
266	–	void SimInfo::transposeMat3(double in[3][3], double out[3][3]) {
267	–	double temp[3][3];
268	–	int i, j;
269	–
270	–	for (i = 0; i < 3; i++) {
271	–	for (j = 0; j < 3; j++) {
272	–	temp[j][i] = in[i][j];
273	–	}
274	–	}
275	–	for (i = 0; i < 3; i++) {
276	–	for (j = 0; j < 3; j++) {
277	–	out[i][j] = temp[i][j];
278	–	}
279	–	}
280	–	}
281	–
282	–	void SimInfo::printMat3(double A[3][3] ){
283	–
284	–	std::cerr
285	–	<< "[ " << A[0][0] << ", " << A[0][1] << ", " << A[0][2] << " ]\n"
286	–	<< "[ " << A[1][0] << ", " << A[1][1] << ", " << A[1][2] << " ]\n"
287	–	<< "[ " << A[2][0] << ", " << A[2][1] << ", " << A[2][2] << " ]\n";
288	–	}
289	–
290	–	void SimInfo::printMat9(double A[9] ){
291	–
292	–	std::cerr
293	–	<< "[ " << A[0] << ", " << A[1] << ", " << A[2] << " ]\n"
294	–	<< "[ " << A[3] << ", " << A[4] << ", " << A[5] << " ]\n"
295	–	<< "[ " << A[6] << ", " << A[7] << ", " << A[8] << " ]\n";
296	–	}
297	–
298	–
299	–	void SimInfo::crossProduct3(double a[3],double b[3], double out[3]){
300	–
301	–	out[0] = a[1] * b[2] - a[2] * b[1];
302	–	out[1] = a[2] * b[0] - a[0] * b[2] ;
303	–	out[2] = a[0] * b[1] - a[1] * b[0];
304	–
305	–	}
306	–
307	–	double SimInfo::dotProduct3(double a[3], double b[3]){
308	–	return a[0]b[0] + a[1]b[1]+ a[2]*b[2];
309	–	}
310	–
311	–	double SimInfo::length3(double a[3]){
312	–	return sqrt(a[0]a[0] + a[1]a[1] + a[2]*a[2]);
313	–	}
314	–
213		void SimInfo::calcBoxL( void ){
214
215		double dx, dy, dz, dsq;
#	Line 367 \| Line 265 \| double SimInfo::calcMaxCutOff(){
265		rk[0] = Hmat[0][2];
266		rk[1] = Hmat[1][2];
267		rk[2] = Hmat[2][2];
268	<
269	<	crossProduct3(ri,rj, rij);
270	<	distXY = dotProduct3(rk,rij) / length3(rij);
268	>
269	>	crossProduct3(ri, rj, rij);
270	>	distXY = dotProduct3(rk,rij) / norm3(rij);
271
272		crossProduct3(rj,rk, rjk);
273	<	distYZ = dotProduct3(ri,rjk) / length3(rjk);
273	>	distYZ = dotProduct3(ri,rjk) / norm3(rjk);
274
275		crossProduct3(rk,ri, rki);
276	<	distZX = dotProduct3(rj,rki) / length3(rki);
276	>	distZX = dotProduct3(rj,rki) / norm3(rki);
277
278		minDist = min(min(distXY, distYZ), distZX);
279		return minDist/2;
#	Line 423 \| Line 321 \| int SimInfo::getNDF(){
321
322		int SimInfo::getNDF(){
323		int ndf_local;
324	+
325	+	ndf_local = 0;
326
327	<	ndf_local = 3 * n_atoms + 3 * n_oriented - n_constraints;
327	>	for(int i = 0; i < integrableObjects.size(); i++){
328	>	ndf_local += 3;
329	>	if (integrableObjects[i]->isDirectional()) {
330	>	if (integrableObjects[i]->isLinear())
331	>	ndf_local += 2;
332	>	else
333	>	ndf_local += 3;
334	>	}
335	>	}
336
337	+	// n_constraints is local, so subtract them on each processor:
338	+
339	+	ndf_local -= n_constraints;
340	+
341		#ifdef IS_MPI
342		MPI_Allreduce(&ndf_local,&ndf,1,MPI_INT,MPI_SUM, MPI_COMM_WORLD);
343		#else
344		ndf = ndf_local;
345		#endif
346
347	+	// nZconstraints is global, as are the 3 COM translations for the
348	+	// entire system:
349	+
350		ndf = ndf - 3 - nZconstraints;
351
352		return ndf;
#	Line 441 \| Line 356 \| int SimInfo::getNDFraw() {
356		int ndfRaw_local;
357
358		// Raw degrees of freedom that we have to set
359	<	ndfRaw_local = 3 * n_atoms + 3 * n_oriented;
360	<
359	>	ndfRaw_local = 0;
360	>
361	>	for(int i = 0; i < integrableObjects.size(); i++){
362	>	ndfRaw_local += 3;
363	>	if (integrableObjects[i]->isDirectional()) {
364	>	if (integrableObjects[i]->isLinear())
365	>	ndfRaw_local += 2;
366	>	else
367	>	ndfRaw_local += 3;
368	>	}
369	>	}
370	>
371		#ifdef IS_MPI
372		MPI_Allreduce(&ndfRaw_local,&ndfRaw,1,MPI_INT,MPI_SUM, MPI_COMM_WORLD);
373		#else
#	Line 455 \| Line 380 \| int SimInfo::getNDFtranslational() {
380		int SimInfo::getNDFtranslational() {
381		int ndfTrans_local;
382
383	<	ndfTrans_local = 3 * n_atoms - n_constraints;
383	>	ndfTrans_local = 3 * integrableObjects.size() - n_constraints;
384
385	+
386		#ifdef IS_MPI
387		MPI_Allreduce(&ndfTrans_local,&ndfTrans,1,MPI_INT,MPI_SUM, MPI_COMM_WORLD);
388		#else
#	Line 468 \| Line 394 \| int SimInfo::getNDFtranslational() {
394		return ndfTrans;
395		}
396
397	+	int SimInfo::getTotIntegrableObjects() {
398	+	int nObjs_local;
399	+	int nObjs;
400	+
401	+	nObjs_local = integrableObjects.size();
402	+
403	+
404	+	#ifdef IS_MPI
405	+	MPI_Allreduce(&nObjs_local,&nObjs,1,MPI_INT,MPI_SUM, MPI_COMM_WORLD);
406	+	#else
407	+	nObjs = nObjs_local;
408	+	#endif
409	+
410	+
411	+	return nObjs;
412	+	}
413	+
414		void SimInfo::refreshSim(){
415
416		simtype fInfo;
#	Line 477 \| Line 420 \| void SimInfo::refreshSim(){
420
421		fInfo.dielect = 0.0;
422
423	<	if( useDipole ){
423	>	if( useDipoles ){
424		if( useReactionField )fInfo.dielect = dielectric;
425		}
426
#	Line 486 \| Line 429 \| void SimInfo::refreshSim(){
429		fInfo.SIM_uses_LJ = useLJ;
430		fInfo.SIM_uses_sticky = useSticky;
431		//fInfo.SIM_uses_sticky = 0;
432	<	fInfo.SIM_uses_dipoles = useDipole;
432	>	fInfo.SIM_uses_charges = useCharges;
433	>	fInfo.SIM_uses_dipoles = useDipoles;
434		//fInfo.SIM_uses_dipoles = 0;
435	<	//fInfo.SIM_uses_RF = useReactionField;
436	<	fInfo.SIM_uses_RF = 0;
435	>	fInfo.SIM_uses_RF = useReactionField;
436	>	//fInfo.SIM_uses_RF = 0;
437		fInfo.SIM_uses_GB = useGB;
438		fInfo.SIM_uses_EAM = useEAM;
439
440	<	excl = Exclude::getArray();
440	>	n_exclude = excludes->getSize();
441	>	excl = excludes->getFortranArray();
442
443		#ifdef IS_MPI
444		n_global = mpiSim->getTotAtoms();
#	Line 539 \| Line 484 \| void SimInfo::setDefaultEcr( double theEcr ){
484		void SimInfo::setDefaultEcr( double theEcr ){
485
486		haveEcr = 1;
487	+	ecr = theEcr;
488
489		( rCut > ecr )? rList = rCut + 1.0: rList = ecr + 1.0;
490
545	–	ecr = theEcr;
546	–
491		notifyFortranCutOffs( &rCut, &rList, &ecr, &est );
492		}
493
#	Line 562 \| Line 506 \| void SimInfo::checkCutOffs( void ){
506
507		if( rCut > maxCutoff ){
508		sprintf( painCave.errMsg,
509	<	"Box size is too small for the long range cutoff radius, "
510	<	"%lf, at time %lf\n",
511	<	rCut, currentTime );
509	>	"LJrcut is too large for the current periodic box.\n"
510	>	"\tCurrent Value of LJrcut = %G at time %G\n "
511	>	"\tThis is larger than half of at least one of the\n"
512	>	"\tperiodic box vectors. Right now, the Box matrix is:\n"
513	>	"\n, %G"
514	>	"\t[ %G %G %G ]\n"
515	>	"\t[ %G %G %G ]\n"
516	>	"\t[ %G %G %G ]\n",
517	>	rCut, currentTime, maxCutoff,
518	>	Hmat[0][0], Hmat[0][1], Hmat[0][2],
519	>	Hmat[1][0], Hmat[1][1], Hmat[1][2],
520	>	Hmat[2][0], Hmat[2][1], Hmat[2][2]);
521		painCave.isFatal = 1;
522		simError();
523		}
#	Line 572 \| Line 525 \| void SimInfo::checkCutOffs( void ){
525		if( haveEcr ){
526		if( ecr > maxCutoff ){
527		sprintf( painCave.errMsg,
528	<	"Box size is too small for the electrostatic cutoff radius, "
529	<	"%lf, at time %lf\n",
530	<	ecr, currentTime );
528	>	"electrostaticCutoffRadius is too large for the current\n"
529	>	"\tperiodic box.\n\n"
530	>	"\tCurrent Value of ECR = %G at time %G\n "
531	>	"\tThis is larger than half of at least one of the\n"
532	>	"\tperiodic box vectors. Right now, the Box matrix is:\n"
533	>	"\n"
534	>	"\t[ %G %G %G ]\n"
535	>	"\t[ %G %G %G ]\n"
536	>	"\t[ %G %G %G ]\n",
537	>	ecr, currentTime,
538	>	Hmat[0][0], Hmat[0][1], Hmat[0][2],
539	>	Hmat[1][0], Hmat[1][1], Hmat[1][2],
540	>	Hmat[2][0], Hmat[2][1], Hmat[2][2]);
541		painCave.isFatal = 1;
542		simError();
543		}
#	Line 582 \| Line 545 \| void SimInfo::checkCutOffs( void ){
545		} else {
546		// initialize this stuff before using it, OK?
547		sprintf( painCave.errMsg,
548	<	"Trying to check cutoffs without a box. Be smarter.\n" );
548	>	"Trying to check cutoffs without a box.\n"
549	>	"\tOOPSE should have better programmers than that.\n" );
550		painCave.isFatal = 1;
551		simError();
552		}
#	Line 625 \| Line 589 \| *GenericData SimInfo::getProperty(const string& propNa**
589		return NULL;
590		}
591
628	–	vector<GenericData*> SimInfo::getProperties(){
629	–
630	–	vector<GenericData*> result;
631	–	map<string, GenericData*>::iterator i;
632	–
633	–	for(i = properties.begin(); i != properties.end(); i++)
634	–	result.push_back((*i).second);
635	–
636	–	return result;
637	–	}
638	–
639	–	double SimInfo::matTrace3(double m[3][3]){
640	–	double trace;
641	–	trace = m[0][0] + m[1][1] + m[2][2];
642	–
643	–	return trace;
644	–	}

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Comparing trunk/OOPSE/libmdtools/SimInfo.cpp (file contents): Revision 859 by mmeineke, Mon Nov 10 21:50:36 2003 UTC vs. Revision 1127 by tim, Tue Apr 20 16:56:40 2004 UTC

Diff Legend

Comparing trunk/OOPSE/libmdtools/SimInfo.cpp (file contents):
Revision 859 by mmeineke, Mon Nov 10 21:50:36 2003 UTC vs.
Revision 1127 by tim, Tue Apr 20 16:56:40 2004 UTC