source: src/molecule_geometry.cpp@ a2c4f3

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Last change on this file since a2c4f3 was 13d150, checked in by Frederik Heber <heber@…>, 14 years ago

Moved leastsquaremin.?pp to LinearAlgebra.

  • changed Makefile.am and LinearAlgebra/Makefile.am.
  • changed include in molecule.cpp, molecule_geometry.cpp and vector_ops.cpp.
  • Property mode set to 100644
File size: 14.7 KB
Line 
1/*
2 * Project: MoleCuilder
3 * Description: creates and alters molecular systems
4 * Copyright (C) 2010 University of Bonn. All rights reserved.
5 * Please see the LICENSE file or "Copyright notice" in builder.cpp for details.
6 */
7
8/*
9 * molecule_geometry.cpp
10 *
11 * Created on: Oct 5, 2009
12 * Author: heber
13 */
14
15// include config.h
16#ifdef HAVE_CONFIG_H
17#include <config.h>
18#endif
19
20#include "Helpers/MemDebug.hpp"
21
22#include "Helpers/helpers.hpp"
23#include "Helpers/Log.hpp"
24#include "Helpers/Verbose.hpp"
25#include "LinearAlgebra/Line.hpp"
26#include "LinearAlgebra/RealSpaceMatrix.hpp"
27#include "LinearAlgebra/Plane.hpp"
28
29#include "atom.hpp"
30#include "bond.hpp"
31#include "config.hpp"
32#include "element.hpp"
33#include "LinearAlgebra/leastsquaremin.hpp"
34#include "molecule.hpp"
35#include "World.hpp"
36
37#include "Box.hpp"
38
39#include <boost/foreach.hpp>
40
41#include <gsl/gsl_eigen.h>
42#include <gsl/gsl_multimin.h>
43
44
45/************************************* Functions for class molecule *********************************/
46
47
48/** Centers the molecule in the box whose lengths are defined by vector \a *BoxLengths.
49 * \param *out output stream for debugging
50 */
51bool molecule::CenterInBox()
52{
53 bool status = true;
54 const Vector *Center = DetermineCenterOfAll();
55 const Vector *CenterBox = DetermineCenterOfBox();
56 Box &domain = World::getInstance().getDomain();
57
58 // go through all atoms
59 BOOST_FOREACH(atom* iter, atoms){
60 *iter -= *Center;
61 *iter -= *CenterBox;
62 }
63 atoms.transformNodes(boost::bind(&Box::WrapPeriodically,domain,_1));
64
65 delete(Center);
66 delete(CenterBox);
67 return status;
68};
69
70
71/** Bounds the molecule in the box whose lengths are defined by vector \a *BoxLengths.
72 * \param *out output stream for debugging
73 */
74bool molecule::BoundInBox()
75{
76 bool status = true;
77 Box &domain = World::getInstance().getDomain();
78
79 // go through all atoms
80 atoms.transformNodes(boost::bind(&Box::WrapPeriodically,domain,_1));
81
82 return status;
83};
84
85/** Centers the edge of the atoms at (0,0,0).
86 * \param *out output stream for debugging
87 * \param *max coordinates of other edge, specifying box dimensions.
88 */
89void molecule::CenterEdge(Vector *max)
90{
91 Vector *min = new Vector;
92
93// Log() << Verbose(3) << "Begin of CenterEdge." << endl;
94 molecule::const_iterator iter = begin(); // start at first in list
95 if (iter != end()) { //list not empty?
96 for (int i=NDIM;i--;) {
97 max->at(i) = (*iter)->at(i);
98 min->at(i) = (*iter)->at(i);
99 }
100 for (; iter != end(); ++iter) {// continue with second if present
101 //(*iter)->Output(1,1,out);
102 for (int i=NDIM;i--;) {
103 max->at(i) = (max->at(i) < (*iter)->at(i)) ? (*iter)->at(i) : max->at(i);
104 min->at(i) = (min->at(i) > (*iter)->at(i)) ? (*iter)->at(i) : min->at(i);
105 }
106 }
107// Log() << Verbose(4) << "Maximum is ";
108// max->Output(out);
109// Log() << Verbose(0) << ", Minimum is ";
110// min->Output(out);
111// Log() << Verbose(0) << endl;
112 min->Scale(-1.);
113 (*max) += (*min);
114 Translate(min);
115 }
116 delete(min);
117// Log() << Verbose(3) << "End of CenterEdge." << endl;
118};
119
120/** Centers the center of the atoms at (0,0,0).
121 * \param *out output stream for debugging
122 * \param *center return vector for translation vector
123 */
124void molecule::CenterOrigin()
125{
126 int Num = 0;
127 molecule::const_iterator iter = begin(); // start at first in list
128 Vector Center;
129
130 Center.Zero();
131 if (iter != end()) { //list not empty?
132 for (; iter != end(); ++iter) { // continue with second if present
133 Num++;
134 Center += (*iter)->getPosition();
135 }
136 Center.Scale(-1./(double)Num); // divide through total number (and sign for direction)
137 Translate(&Center);
138 }
139};
140
141/** Returns vector pointing to center of all atoms.
142 * \return pointer to center of all vector
143 */
144Vector * molecule::DetermineCenterOfAll() const
145{
146 molecule::const_iterator iter = begin(); // start at first in list
147 Vector *a = new Vector();
148 double Num = 0;
149
150 a->Zero();
151
152 if (iter != end()) { //list not empty?
153 for (; iter != end(); ++iter) { // continue with second if present
154 Num++;
155 (*a) += (*iter)->getPosition();
156 }
157 a->Scale(1./(double)Num); // divide through total mass (and sign for direction)
158 }
159 return a;
160};
161
162/** Returns vector pointing to center of the domain.
163 * \return pointer to center of the domain
164 */
165Vector * molecule::DetermineCenterOfBox() const
166{
167 Vector *a = new Vector(0.5,0.5,0.5);
168 const RealSpaceMatrix &M = World::getInstance().getDomain().getM();
169 (*a) *= M;
170 return a;
171};
172
173/** Returns vector pointing to center of gravity.
174 * \param *out output stream for debugging
175 * \return pointer to center of gravity vector
176 */
177Vector * molecule::DetermineCenterOfGravity() const
178{
179 molecule::const_iterator iter = begin(); // start at first in list
180 Vector *a = new Vector();
181 Vector tmp;
182 double Num = 0;
183
184 a->Zero();
185
186 if (iter != end()) { //list not empty?
187 for (; iter != end(); ++iter) { // continue with second if present
188 Num += (*iter)->getType()->getMass();
189 tmp = (*iter)->getType()->getMass() * (*iter)->getPosition();
190 (*a) += tmp;
191 }
192 a->Scale(1./Num); // divide through total mass
193 }
194// Log() << Verbose(1) << "Resulting center of gravity: ";
195// a->Output(out);
196// Log() << Verbose(0) << endl;
197 return a;
198};
199
200/** Centers the center of gravity of the atoms at (0,0,0).
201 * \param *out output stream for debugging
202 * \param *center return vector for translation vector
203 */
204void molecule::CenterPeriodic()
205{
206 Vector NewCenter;
207 DeterminePeriodicCenter(NewCenter);
208 // go through all atoms
209 BOOST_FOREACH(atom* iter, atoms){
210 *iter -= NewCenter;
211 }
212};
213
214
215/** Centers the center of gravity of the atoms at (0,0,0).
216 * \param *out output stream for debugging
217 * \param *center return vector for translation vector
218 */
219void molecule::CenterAtVector(Vector *newcenter)
220{
221 // go through all atoms
222 BOOST_FOREACH(atom* iter, atoms){
223 *iter -= *newcenter;
224 }
225};
226
227
228/** Scales all atoms by \a *factor.
229 * \param *factor pointer to scaling factor
230 *
231 * TODO: Is this realy what is meant, i.e.
232 * x=(x[0]*factor[0],x[1]*factor[1],x[2]*factor[2]) (current impl)
233 * or rather
234 * x=(**factor) * x (as suggested by comment)
235 */
236void molecule::Scale(const double ** const factor)
237{
238 for (molecule::const_iterator iter = begin(); iter != end(); ++iter) {
239 for (int j=0;j<MDSteps;j++)
240 (*iter)->Trajectory.R.at(j).ScaleAll(*factor);
241 (*iter)->ScaleAll(*factor);
242 }
243};
244
245/** Translate all atoms by given vector.
246 * \param trans[] translation vector.
247 */
248void molecule::Translate(const Vector *trans)
249{
250 for (molecule::const_iterator iter = begin(); iter != end(); ++iter) {
251 for (int j=0;j<MDSteps;j++)
252 (*iter)->Trajectory.R.at(j) += (*trans);
253 *(*iter) += (*trans);
254 }
255};
256
257/** Translate the molecule periodically in the box.
258 * \param trans[] translation vector.
259 * TODO treatment of trajetories missing
260 */
261void molecule::TranslatePeriodically(const Vector *trans)
262{
263 Box &domain = World::getInstance().getDomain();
264
265 // go through all atoms
266 BOOST_FOREACH(atom* iter, atoms){
267 *iter += *trans;
268 }
269 atoms.transformNodes(boost::bind(&Box::WrapPeriodically,domain,_1));
270
271};
272
273
274/** Mirrors all atoms against a given plane.
275 * \param n[] normal vector of mirror plane.
276 */
277void molecule::Mirror(const Vector *n)
278{
279 OBSERVE;
280 Plane p(*n,0);
281 atoms.transformNodes(boost::bind(&Plane::mirrorVector,p,_1));
282};
283
284/** Determines center of molecule (yet not considering atom masses).
285 * \param center reference to return vector
286 */
287void molecule::DeterminePeriodicCenter(Vector &center)
288{
289 const RealSpaceMatrix &matrix = World::getInstance().getDomain().getM();
290 const RealSpaceMatrix &inversematrix = World::getInstance().getDomain().getM();
291 double tmp;
292 bool flag;
293 Vector Testvector, Translationvector;
294 Vector Center;
295
296 do {
297 Center.Zero();
298 flag = true;
299 for (molecule::const_iterator iter = begin(); iter != end(); ++iter) {
300#ifdef ADDHYDROGEN
301 if ((*iter)->getType()->getAtomicNumber() != 1) {
302#endif
303 Testvector = inversematrix * (*iter)->getPosition();
304 Translationvector.Zero();
305 for (BondList::const_iterator Runner = (*iter)->ListOfBonds.begin(); Runner != (*iter)->ListOfBonds.end(); (++Runner)) {
306 if ((*iter)->nr < (*Runner)->GetOtherAtom((*iter))->nr) // otherwise we shift one to, the other fro and gain nothing
307 for (int j=0;j<NDIM;j++) {
308 tmp = (*iter)->at(j) - (*Runner)->GetOtherAtom(*iter)->at(j);
309 if ((fabs(tmp)) > BondDistance) {
310 flag = false;
311 DoLog(0) && (Log() << Verbose(0) << "Hit: atom " << (*iter)->getName() << " in bond " << *(*Runner) << " has to be shifted due to " << tmp << "." << endl);
312 if (tmp > 0)
313 Translationvector[j] -= 1.;
314 else
315 Translationvector[j] += 1.;
316 }
317 }
318 }
319 Testvector += Translationvector;
320 Testvector *= matrix;
321 Center += Testvector;
322 Log() << Verbose(1) << "vector is: " << Testvector << endl;
323#ifdef ADDHYDROGEN
324 // now also change all hydrogens
325 for (BondList::const_iterator Runner = (*iter)->ListOfBonds.begin(); Runner != (*iter)->ListOfBonds.end(); (++Runner)) {
326 if ((*Runner)->GetOtherAtom((*iter))->getType()->getAtomicNumber() == 1) {
327 Testvector = inversematrix * (*Runner)->GetOtherAtom((*iter))->getPosition();
328 Testvector += Translationvector;
329 Testvector *= matrix;
330 Center += Testvector;
331 Log() << Verbose(1) << "Hydrogen vector is: " << Testvector << endl;
332 }
333 }
334 }
335#endif
336 }
337 } while (!flag);
338
339 Center.Scale(1./static_cast<double>(getAtomCount()));
340 CenterAtVector(&Center);
341};
342
343/** Align all atoms in such a manner that given vector \a *n is along z axis.
344 * \param n[] alignment vector.
345 */
346void molecule::Align(Vector *n)
347{
348 double alpha, tmp;
349 Vector z_axis;
350 z_axis[0] = 0.;
351 z_axis[1] = 0.;
352 z_axis[2] = 1.;
353
354 // rotate on z-x plane
355 DoLog(0) && (Log() << Verbose(0) << "Begin of Aligning all atoms." << endl);
356 alpha = atan(-n->at(0)/n->at(2));
357 DoLog(1) && (Log() << Verbose(1) << "Z-X-angle: " << alpha << " ... ");
358 for (molecule::const_iterator iter = begin(); iter != end(); ++iter) {
359 tmp = (*iter)->at(0);
360 (*iter)->set(0, cos(alpha) * tmp + sin(alpha) * (*iter)->at(2));
361 (*iter)->set(2, -sin(alpha) * tmp + cos(alpha) * (*iter)->at(2));
362 for (int j=0;j<MDSteps;j++) {
363 tmp = (*iter)->Trajectory.R.at(j)[0];
364 (*iter)->Trajectory.R.at(j)[0] = cos(alpha) * tmp + sin(alpha) * (*iter)->Trajectory.R.at(j)[2];
365 (*iter)->Trajectory.R.at(j)[2] = -sin(alpha) * tmp + cos(alpha) * (*iter)->Trajectory.R.at(j)[2];
366 }
367 }
368 // rotate n vector
369 tmp = n->at(0);
370 n->at(0) = cos(alpha) * tmp + sin(alpha) * n->at(2);
371 n->at(2) = -sin(alpha) * tmp + cos(alpha) * n->at(2);
372 DoLog(1) && (Log() << Verbose(1) << "alignment vector after first rotation: " << n << endl);
373
374 // rotate on z-y plane
375 alpha = atan(-n->at(1)/n->at(2));
376 DoLog(1) && (Log() << Verbose(1) << "Z-Y-angle: " << alpha << " ... ");
377 for (molecule::const_iterator iter = begin(); iter != end(); ++iter) {
378 tmp = (*iter)->at(1);
379 (*iter)->set(1, cos(alpha) * tmp + sin(alpha) * (*iter)->at(2));
380 (*iter)->set(2, -sin(alpha) * tmp + cos(alpha) * (*iter)->at(2));
381 for (int j=0;j<MDSteps;j++) {
382 tmp = (*iter)->Trajectory.R.at(j)[1];
383 (*iter)->Trajectory.R.at(j)[1] = cos(alpha) * tmp + sin(alpha) * (*iter)->Trajectory.R.at(j)[2];
384 (*iter)->Trajectory.R.at(j)[2] = -sin(alpha) * tmp + cos(alpha) * (*iter)->Trajectory.R.at(j)[2];
385 }
386 }
387 // rotate n vector (for consistency check)
388 tmp = n->at(1);
389 n->at(1) = cos(alpha) * tmp + sin(alpha) * n->at(2);
390 n->at(2) = -sin(alpha) * tmp + cos(alpha) * n->at(2);
391
392
393 DoLog(1) && (Log() << Verbose(1) << "alignment vector after second rotation: " << n << endl);
394 DoLog(0) && (Log() << Verbose(0) << "End of Aligning all atoms." << endl);
395};
396
397
398/** Calculates sum over least square distance to line hidden in \a *x.
399 * \param *x offset and direction vector
400 * \param *params pointer to lsq_params structure
401 * \return \f$ sum_i^N | y_i - (a + t_i b)|^2\f$
402 */
403double LeastSquareDistance (const gsl_vector * x, void * params)
404{
405 double res = 0, t;
406 Vector a,b,c,d;
407 struct lsq_params *par = (struct lsq_params *)params;
408
409 // initialize vectors
410 a[0] = gsl_vector_get(x,0);
411 a[1] = gsl_vector_get(x,1);
412 a[2] = gsl_vector_get(x,2);
413 b[0] = gsl_vector_get(x,3);
414 b[1] = gsl_vector_get(x,4);
415 b[2] = gsl_vector_get(x,5);
416 // go through all atoms
417 for (molecule::const_iterator iter = par->mol->begin(); iter != par->mol->end(); ++iter) {
418 if ((*iter)->getType() == ((struct lsq_params *)params)->type) { // for specific type
419 c = (*iter)->getPosition() - a;
420 t = c.ScalarProduct(b); // get direction parameter
421 d = t*b; // and create vector
422 c -= d; // ... yielding distance vector
423 res += d.ScalarProduct(d); // add squared distance
424 }
425 }
426 return res;
427};
428
429/** By minimizing the least square distance gains alignment vector.
430 * \bug this is not yet working properly it seems
431 */
432void molecule::GetAlignvector(struct lsq_params * par) const
433{
434 int np = 6;
435
436 const gsl_multimin_fminimizer_type *T =
437 gsl_multimin_fminimizer_nmsimplex;
438 gsl_multimin_fminimizer *s = NULL;
439 gsl_vector *ss;
440 gsl_multimin_function minex_func;
441
442 size_t iter = 0, i;
443 int status;
444 double size;
445
446 /* Initial vertex size vector */
447 ss = gsl_vector_alloc (np);
448
449 /* Set all step sizes to 1 */
450 gsl_vector_set_all (ss, 1.0);
451
452 /* Starting point */
453 par->x = gsl_vector_alloc (np);
454 par->mol = this;
455
456 gsl_vector_set (par->x, 0, 0.0); // offset
457 gsl_vector_set (par->x, 1, 0.0);
458 gsl_vector_set (par->x, 2, 0.0);
459 gsl_vector_set (par->x, 3, 0.0); // direction
460 gsl_vector_set (par->x, 4, 0.0);
461 gsl_vector_set (par->x, 5, 1.0);
462
463 /* Initialize method and iterate */
464 minex_func.f = &LeastSquareDistance;
465 minex_func.n = np;
466 minex_func.params = (void *)par;
467
468 s = gsl_multimin_fminimizer_alloc (T, np);
469 gsl_multimin_fminimizer_set (s, &minex_func, par->x, ss);
470
471 do
472 {
473 iter++;
474 status = gsl_multimin_fminimizer_iterate(s);
475
476 if (status)
477 break;
478
479 size = gsl_multimin_fminimizer_size (s);
480 status = gsl_multimin_test_size (size, 1e-2);
481
482 if (status == GSL_SUCCESS)
483 {
484 printf ("converged to minimum at\n");
485 }
486
487 printf ("%5d ", (int)iter);
488 for (i = 0; i < (size_t)np; i++)
489 {
490 printf ("%10.3e ", gsl_vector_get (s->x, i));
491 }
492 printf ("f() = %7.3f size = %.3f\n", s->fval, size);
493 }
494 while (status == GSL_CONTINUE && iter < 100);
495
496 for (i=0;i<(size_t)np;i++)
497 gsl_vector_set(par->x, i, gsl_vector_get(s->x, i));
498 //gsl_vector_free(par->x);
499 gsl_vector_free(ss);
500 gsl_multimin_fminimizer_free (s);
501};
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