source: src/analysis_correlation.cpp@ 70378e

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Last change on this file since 70378e was b34306, checked in by Frederik Heber <heber@…>, 15 years ago

singleton class World introduced, contains only cell_size from class molecule.

  • class World is actually code from Till Crueger from his branch StructureRefactoring.
  • has been introduced here in minimalistic form to allow molecule::cell_size to be outsourced to World::cell_size
  • access to cell_size can be obtained from anyhwere by invoking World::get()->cell_size
  • INFO: cell_size was placed in class molecule for the fragmentation procedure where the cell_size had to be individually adapted to each fragment.
  • all appearances have been changed accordingly. Where appropriate we have employed a const pointer onto cell_size.

Signed-off-by: Frederik Heber <heber@…>

  • Property mode set to 100644
File size: 19.2 KB
Line 
1/*
2 * analysis.cpp
3 *
4 * Created on: Oct 13, 2009
5 * Author: heber
6 */
7
8#include <iostream>
9
10#include "analysis_correlation.hpp"
11#include "element.hpp"
12#include "info.hpp"
13#include "log.hpp"
14#include "molecule.hpp"
15#include "tesselation.hpp"
16#include "tesselationhelpers.hpp"
17#include "triangleintersectionlist.hpp"
18#include "vector.hpp"
19#include "verbose.hpp"
20#include "World.hpp"
21
22
23/** Calculates the pair correlation between given elements.
24 * Note given element order is unimportant (i.e. g(Si, O) === g(O, Si))
25 * \param *out output stream for debugging
26 * \param *molecules list of molecules structure
27 * \param *type1 first element or NULL (if any element)
28 * \param *type2 second element or NULL (if any element)
29 * \return Map of doubles with values the pair of the two atoms.
30 */
31PairCorrelationMap *PairCorrelation(MoleculeListClass * const &molecules, const element * const type1, const element * const type2 )
32{
33 Info FunctionInfo(__func__);
34 PairCorrelationMap *outmap = NULL;
35 double distance = 0.;
36
37 if (molecules->ListOfMolecules.empty()) {
38 eLog() << Verbose(1) <<"No molecule given." << endl;
39 return outmap;
40 }
41 outmap = new PairCorrelationMap;
42 for (MoleculeList::const_iterator MolWalker = molecules->ListOfMolecules.begin(); MolWalker != molecules->ListOfMolecules.end(); MolWalker++)
43 if ((*MolWalker)->ActiveFlag) {
44 eLog() << Verbose(2) << "Current molecule is " << *MolWalker << "." << endl;
45 atom *Walker = (*MolWalker)->start;
46 while (Walker->next != (*MolWalker)->end) {
47 Walker = Walker->next;
48 Log() << Verbose(3) << "Current atom is " << *Walker << "." << endl;
49 if ((type1 == NULL) || (Walker->type == type1)) {
50 for (MoleculeList::const_iterator MolOtherWalker = MolWalker; MolOtherWalker != molecules->ListOfMolecules.end(); MolOtherWalker++)
51 if ((*MolOtherWalker)->ActiveFlag) {
52 Log() << Verbose(2) << "Current other molecule is " << *MolOtherWalker << "." << endl;
53 atom *OtherWalker = (*MolOtherWalker)->start;
54 while (OtherWalker->next != (*MolOtherWalker)->end) { // only go up to Walker
55 OtherWalker = OtherWalker->next;
56 Log() << Verbose(3) << "Current otheratom is " << *OtherWalker << "." << endl;
57 if (Walker->nr < OtherWalker->nr)
58 if ((type2 == NULL) || (OtherWalker->type == type2)) {
59 distance = Walker->node->PeriodicDistance(OtherWalker->node, World::get()->cell_size);
60 //Log() << Verbose(1) <<"Inserting " << *Walker << " and " << *OtherWalker << endl;
61 outmap->insert ( pair<double, pair <atom *, atom*> > (distance, pair<atom *, atom*> (Walker, OtherWalker) ) );
62 }
63 }
64 }
65 }
66 }
67 }
68
69 return outmap;
70};
71
72/** Calculates the pair correlation between given elements.
73 * Note given element order is unimportant (i.e. g(Si, O) === g(O, Si))
74 * \param *out output stream for debugging
75 * \param *molecules list of molecules structure
76 * \param *type1 first element or NULL (if any element)
77 * \param *type2 second element or NULL (if any element)
78 * \param ranges[NDIM] interval boundaries for the periodic images to scan also
79 * \return Map of doubles with values the pair of the two atoms.
80 */
81PairCorrelationMap *PeriodicPairCorrelation(MoleculeListClass * const &molecules, const element * const type1, const element * const type2, const int ranges[NDIM] )
82{
83 Info FunctionInfo(__func__);
84 PairCorrelationMap *outmap = NULL;
85 double distance = 0.;
86 int n[NDIM];
87 Vector checkX;
88 Vector periodicX;
89 int Othern[NDIM];
90 Vector checkOtherX;
91 Vector periodicOtherX;
92
93 if (molecules->ListOfMolecules.empty()) {
94 eLog() << Verbose(1) <<"No molecule given." << endl;
95 return outmap;
96 }
97 outmap = new PairCorrelationMap;
98 for (MoleculeList::const_iterator MolWalker = molecules->ListOfMolecules.begin(); MolWalker != molecules->ListOfMolecules.end(); MolWalker++)
99 if ((*MolWalker)->ActiveFlag) {
100 double * FullMatrix = ReturnFullMatrixforSymmetric(World::get()->cell_size);
101 double * FullInverseMatrix = InverseMatrix(FullMatrix);
102 eLog() << Verbose(2) << "Current molecule is " << *MolWalker << "." << endl;
103 atom *Walker = (*MolWalker)->start;
104 while (Walker->next != (*MolWalker)->end) {
105 Walker = Walker->next;
106 Log() << Verbose(3) << "Current atom is " << *Walker << "." << endl;
107 if ((type1 == NULL) || (Walker->type == type1)) {
108 periodicX.CopyVector(Walker->node);
109 periodicX.MatrixMultiplication(FullInverseMatrix); // x now in [0,1)^3
110 // go through every range in xyz and get distance
111 for (n[0]=-ranges[0]; n[0] <= ranges[0]; n[0]++)
112 for (n[1]=-ranges[1]; n[1] <= ranges[1]; n[1]++)
113 for (n[2]=-ranges[2]; n[2] <= ranges[2]; n[2]++) {
114 checkX.Init(n[0], n[1], n[2]);
115 checkX.AddVector(&periodicX);
116 checkX.MatrixMultiplication(FullMatrix);
117 for (MoleculeList::const_iterator MolOtherWalker = MolWalker; MolOtherWalker != molecules->ListOfMolecules.end(); MolOtherWalker++)
118 if ((*MolOtherWalker)->ActiveFlag) {
119 Log() << Verbose(2) << "Current other molecule is " << *MolOtherWalker << "." << endl;
120 atom *OtherWalker = (*MolOtherWalker)->start;
121 while (OtherWalker->next != (*MolOtherWalker)->end) { // only go up to Walker
122 OtherWalker = OtherWalker->next;
123 Log() << Verbose(3) << "Current otheratom is " << *OtherWalker << "." << endl;
124 if (Walker->nr < OtherWalker->nr)
125 if ((type2 == NULL) || (OtherWalker->type == type2)) {
126 periodicOtherX.CopyVector(OtherWalker->node);
127 periodicOtherX.MatrixMultiplication(FullInverseMatrix); // x now in [0,1)^3
128 // go through every range in xyz and get distance
129 for (Othern[0]=-ranges[0]; Othern[0] <= ranges[0]; Othern[0]++)
130 for (Othern[1]=-ranges[1]; Othern[1] <= ranges[1]; Othern[1]++)
131 for (Othern[2]=-ranges[2]; Othern[2] <= ranges[2]; Othern[2]++) {
132 checkOtherX.Init(Othern[0], Othern[1], Othern[2]);
133 checkOtherX.AddVector(&periodicOtherX);
134 checkOtherX.MatrixMultiplication(FullMatrix);
135 distance = checkX.Distance(&checkOtherX);
136 //Log() << Verbose(1) <<"Inserting " << *Walker << " and " << *OtherWalker << endl;
137 outmap->insert ( pair<double, pair <atom *, atom*> > (distance, pair<atom *, atom*> (Walker, OtherWalker) ) );
138 }
139 }
140 }
141 }
142 }
143 }
144 }
145 Free(&FullMatrix);
146 Free(&FullInverseMatrix);
147 }
148
149 return outmap;
150};
151
152/** Calculates the distance (pair) correlation between a given element and a point.
153 * \param *out output stream for debugging
154 * \param *molecules list of molecules structure
155 * \param *type element or NULL (if any element)
156 * \param *point vector to the correlation point
157 * \return Map of dobules with values as pairs of atom and the vector
158 */
159CorrelationToPointMap *CorrelationToPoint(MoleculeListClass * const &molecules, const element * const type, const Vector *point )
160{
161 Info FunctionInfo(__func__);
162 CorrelationToPointMap *outmap = NULL;
163 double distance = 0.;
164
165 if (molecules->ListOfMolecules.empty()) {
166 Log() << Verbose(1) <<"No molecule given." << endl;
167 return outmap;
168 }
169 outmap = new CorrelationToPointMap;
170 for (MoleculeList::const_iterator MolWalker = molecules->ListOfMolecules.begin(); MolWalker != molecules->ListOfMolecules.end(); MolWalker++)
171 if ((*MolWalker)->ActiveFlag) {
172 Log() << Verbose(2) << "Current molecule is " << *MolWalker << "." << endl;
173 atom *Walker = (*MolWalker)->start;
174 while (Walker->next != (*MolWalker)->end) {
175 Walker = Walker->next;
176 Log() << Verbose(3) << "Current atom is " << *Walker << "." << endl;
177 if ((type == NULL) || (Walker->type == type)) {
178 distance = Walker->node->PeriodicDistance(point, World::get()->cell_size);
179 Log() << Verbose(4) << "Current distance is " << distance << "." << endl;
180 outmap->insert ( pair<double, pair<atom *, const Vector*> >(distance, pair<atom *, const Vector*> (Walker, point) ) );
181 }
182 }
183 }
184
185 return outmap;
186};
187
188/** Calculates the distance (pair) correlation between a given element, all its periodic images and a point.
189 * \param *out output stream for debugging
190 * \param *molecules list of molecules structure
191 * \param *type element or NULL (if any element)
192 * \param *point vector to the correlation point
193 * \param ranges[NDIM] interval boundaries for the periodic images to scan also
194 * \return Map of dobules with values as pairs of atom and the vector
195 */
196CorrelationToPointMap *PeriodicCorrelationToPoint(MoleculeListClass * const &molecules, const element * const type, const Vector *point, const int ranges[NDIM] )
197{
198 Info FunctionInfo(__func__);
199 CorrelationToPointMap *outmap = NULL;
200 double distance = 0.;
201 int n[NDIM];
202 Vector periodicX;
203 Vector checkX;
204
205 if (molecules->ListOfMolecules.empty()) {
206 Log() << Verbose(1) <<"No molecule given." << endl;
207 return outmap;
208 }
209 outmap = new CorrelationToPointMap;
210 for (MoleculeList::const_iterator MolWalker = molecules->ListOfMolecules.begin(); MolWalker != molecules->ListOfMolecules.end(); MolWalker++)
211 if ((*MolWalker)->ActiveFlag) {
212 double * FullMatrix = ReturnFullMatrixforSymmetric(World::get()->cell_size);
213 double * FullInverseMatrix = InverseMatrix(FullMatrix);
214 Log() << Verbose(2) << "Current molecule is " << *MolWalker << "." << endl;
215 atom *Walker = (*MolWalker)->start;
216 while (Walker->next != (*MolWalker)->end) {
217 Walker = Walker->next;
218 Log() << Verbose(3) << "Current atom is " << *Walker << "." << endl;
219 if ((type == NULL) || (Walker->type == type)) {
220 periodicX.CopyVector(Walker->node);
221 periodicX.MatrixMultiplication(FullInverseMatrix); // x now in [0,1)^3
222 // go through every range in xyz and get distance
223 for (n[0]=-ranges[0]; n[0] <= ranges[0]; n[0]++)
224 for (n[1]=-ranges[1]; n[1] <= ranges[1]; n[1]++)
225 for (n[2]=-ranges[2]; n[2] <= ranges[2]; n[2]++) {
226 checkX.Init(n[0], n[1], n[2]);
227 checkX.AddVector(&periodicX);
228 checkX.MatrixMultiplication(FullMatrix);
229 distance = checkX.Distance(point);
230 Log() << Verbose(4) << "Current distance is " << distance << "." << endl;
231 outmap->insert ( pair<double, pair<atom *, const Vector*> >(distance, pair<atom *, const Vector*> (Walker, point) ) );
232 }
233 }
234 }
235 Free(&FullMatrix);
236 Free(&FullInverseMatrix);
237 }
238
239 return outmap;
240};
241
242/** Calculates the distance (pair) correlation between a given element and a surface.
243 * \param *out output stream for debugging
244 * \param *molecules list of molecules structure
245 * \param *type element or NULL (if any element)
246 * \param *Surface pointer to Tesselation class surface
247 * \param *LC LinkedCell structure to quickly find neighbouring atoms
248 * \return Map of doubles with values as pairs of atom and the BoundaryTriangleSet that's closest
249 */
250CorrelationToSurfaceMap *CorrelationToSurface(MoleculeListClass * const &molecules, const element * const type, const Tesselation * const Surface, const LinkedCell *LC )
251{
252 Info FunctionInfo(__func__);
253 CorrelationToSurfaceMap *outmap = NULL;
254 double distance = 0;
255 class BoundaryTriangleSet *triangle = NULL;
256 Vector centroid;
257
258 if ((Surface == NULL) || (LC == NULL) || (molecules->ListOfMolecules.empty())) {
259 eLog() << Verbose(1) <<"No Tesselation, no LinkedCell or no molecule given." << endl;
260 return outmap;
261 }
262 outmap = new CorrelationToSurfaceMap;
263 for (MoleculeList::const_iterator MolWalker = molecules->ListOfMolecules.begin(); MolWalker != molecules->ListOfMolecules.end(); MolWalker++)
264 if ((*MolWalker)->ActiveFlag) {
265 Log() << Verbose(1) << "Current molecule is " << (*MolWalker)->name << "." << endl;
266 atom *Walker = (*MolWalker)->start;
267 while (Walker->next != (*MolWalker)->end) {
268 Walker = Walker->next;
269 //Log() << Verbose(1) << "Current atom is " << *Walker << "." << endl;
270 if ((type == NULL) || (Walker->type == type)) {
271 TriangleIntersectionList Intersections(Walker->node,Surface,LC);
272 distance = Intersections.GetSmallestDistance();
273 triangle = Intersections.GetClosestTriangle();
274 outmap->insert ( pair<double, pair<atom *, BoundaryTriangleSet*> >(distance, pair<atom *, BoundaryTriangleSet*> (Walker, triangle) ) );
275 }
276 }
277 } else
278 Log() << Verbose(1) << "molecule " << (*MolWalker)->name << " is not active." << endl;
279
280
281 return outmap;
282};
283
284/** Calculates the distance (pair) correlation between a given element, all its periodic images and and a surface.
285 * Note that we also put all periodic images found in the cells given by [ -ranges[i], ranges[i] ] and i=0,...,NDIM-1.
286 * I.e. We multiply the atom::node with the inverse of the domain matrix, i.e. transform it to \f$[0,0^3\f$, then add per
287 * axis an integer from [ -ranges[i], ranges[i] ] onto it and multiply with the domain matrix to bring it back into
288 * the real space. Then, we Tesselation::FindClosestTriangleToPoint() and DistanceToTrianglePlane().
289 * \param *out output stream for debugging
290 * \param *molecules list of molecules structure
291 * \param *type element or NULL (if any element)
292 * \param *Surface pointer to Tesselation class surface
293 * \param *LC LinkedCell structure to quickly find neighbouring atoms
294 * \param ranges[NDIM] interval boundaries for the periodic images to scan also
295 * \return Map of doubles with values as pairs of atom and the BoundaryTriangleSet that's closest
296 */
297CorrelationToSurfaceMap *PeriodicCorrelationToSurface(MoleculeListClass * const &molecules, const element * const type, const Tesselation * const Surface, const LinkedCell *LC, const int ranges[NDIM] )
298{
299 Info FunctionInfo(__func__);
300 CorrelationToSurfaceMap *outmap = NULL;
301 double distance = 0;
302 class BoundaryTriangleSet *triangle = NULL;
303 Vector centroid;
304 int n[NDIM];
305 Vector periodicX;
306 Vector checkX;
307
308 if ((Surface == NULL) || (LC == NULL) || (molecules->ListOfMolecules.empty())) {
309 Log() << Verbose(1) <<"No Tesselation, no LinkedCell or no molecule given." << endl;
310 return outmap;
311 }
312 outmap = new CorrelationToSurfaceMap;
313 double ShortestDistance = 0.;
314 BoundaryTriangleSet *ShortestTriangle = NULL;
315 for (MoleculeList::const_iterator MolWalker = molecules->ListOfMolecules.begin(); MolWalker != molecules->ListOfMolecules.end(); MolWalker++)
316 if ((*MolWalker)->ActiveFlag) {
317 double * FullMatrix = ReturnFullMatrixforSymmetric(World::get()->cell_size);
318 double * FullInverseMatrix = InverseMatrix(FullMatrix);
319 Log() << Verbose(2) << "Current molecule is " << *MolWalker << "." << endl;
320 atom *Walker = (*MolWalker)->start;
321 while (Walker->next != (*MolWalker)->end) {
322 Walker = Walker->next;
323 Log() << Verbose(3) << "Current atom is " << *Walker << "." << endl;
324 if ((type == NULL) || (Walker->type == type)) {
325 periodicX.CopyVector(Walker->node);
326 periodicX.MatrixMultiplication(FullInverseMatrix); // x now in [0,1)^3
327 // go through every range in xyz and get distance
328 ShortestDistance = -1.;
329 for (n[0]=-ranges[0]; n[0] <= ranges[0]; n[0]++)
330 for (n[1]=-ranges[1]; n[1] <= ranges[1]; n[1]++)
331 for (n[2]=-ranges[2]; n[2] <= ranges[2]; n[2]++) {
332 checkX.Init(n[0], n[1], n[2]);
333 checkX.AddVector(&periodicX);
334 checkX.MatrixMultiplication(FullMatrix);
335 triangle = Surface->FindClosestTriangleToVector(&checkX, LC);
336 distance = Surface->GetDistanceSquaredToTriangle(checkX, triangle);
337 if ((ShortestDistance == -1.) || (distance < ShortestDistance)) {
338 ShortestDistance = distance;
339 ShortestTriangle = triangle;
340 }
341 }
342 // insert
343 ShortestDistance = sqrt(ShortestDistance);
344 outmap->insert ( pair<double, pair<atom *, BoundaryTriangleSet*> >(ShortestDistance, pair<atom *, BoundaryTriangleSet*> (Walker, ShortestTriangle) ) );
345 //Log() << Verbose(1) << "INFO: Inserting " << Walker << " with distance " << ShortestDistance << " to " << *ShortestTriangle << "." << endl;
346 }
347 }
348 Free(&FullMatrix);
349 Free(&FullInverseMatrix);
350 }
351
352 return outmap;
353};
354
355/** Returns the start of the bin for a given value.
356 * \param value value whose bin to look for
357 * \param BinWidth width of bin
358 * \param BinStart first bin
359 */
360double GetBin ( const double value, const double BinWidth, const double BinStart )
361{
362 Info FunctionInfo(__func__);
363 double bin =(double) (floor((value - BinStart)/BinWidth));
364 return (bin*BinWidth+BinStart);
365};
366
367
368/** Prints correlation (double, int) pairs to file.
369 * \param *file file to write to
370 * \param *map map to write
371 */
372void OutputCorrelation( ofstream * const file, const BinPairMap * const map )
373{
374 Info FunctionInfo(__func__);
375 *file << "BinStart\tCount" << endl;
376 for (BinPairMap::const_iterator runner = map->begin(); runner != map->end(); ++runner) {
377 *file << setprecision(8) << runner->first << "\t" << runner->second << endl;
378 }
379};
380
381/** Prints correlation (double, (atom*,atom*) ) pairs to file.
382 * \param *file file to write to
383 * \param *map map to write
384 */
385void OutputPairCorrelation( ofstream * const file, const PairCorrelationMap * const map )
386{
387 Info FunctionInfo(__func__);
388 *file << "BinStart\tAtom1\tAtom2" << endl;
389 for (PairCorrelationMap::const_iterator runner = map->begin(); runner != map->end(); ++runner) {
390 *file << setprecision(8) << runner->first << "\t" << *(runner->second.first) << "\t" << *(runner->second.second) << endl;
391 }
392};
393
394/** Prints correlation (double, int) pairs to file.
395 * \param *file file to write to
396 * \param *map map to write
397 */
398void OutputCorrelationToPoint( ofstream * const file, const CorrelationToPointMap * const map )
399{
400 Info FunctionInfo(__func__);
401 *file << "BinStart\tAtom::x[i]-point.x[i]" << endl;
402 for (CorrelationToPointMap::const_iterator runner = map->begin(); runner != map->end(); ++runner) {
403 *file << runner->first;
404 for (int i=0;i<NDIM;i++)
405 *file << "\t" << setprecision(8) << (runner->second.first->node->x[i] - runner->second.second->x[i]);
406 *file << endl;
407 }
408};
409
410/** Prints correlation (double, int) pairs to file.
411 * \param *file file to write to
412 * \param *map map to write
413 */
414void OutputCorrelationToSurface( ofstream * const file, const CorrelationToSurfaceMap * const map )
415{
416 Info FunctionInfo(__func__);
417 *file << "BinStart\tTriangle" << endl;
418 if (!map->empty())
419 for (CorrelationToSurfaceMap::const_iterator runner = map->begin(); runner != map->end(); ++runner) {
420 *file << setprecision(8) << runner->first << "\t" << *(runner->second.first) << "\t" << *(runner->second.second) << endl;
421 }
422};
423
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