source: src/LinkedCell/linkedcell.cpp@ 5972c3

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Last change on this file since 5972c3 was 0aa122, checked in by Frederik Heber <heber@…>, 13 years ago

Updated all source files's copyright note to current year 2012.

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1/*
2 * Project: MoleCuilder
3 * Description: creates and alters molecular systems
4 * Copyright (C) 2010-2012 University of Bonn. All rights reserved.
5 * Please see the LICENSE file or "Copyright notice" in builder.cpp for details.
6 */
7
8/** \file linkedcell.cpp
9 *
10 * Function implementations for the class LinkedCell_deprecated.
11 *
12 */
13
14// include config.h
15#ifdef HAVE_CONFIG_H
16#include <config.h>
17#endif
18
19#include "CodePatterns/MemDebug.hpp"
20
21#include "linkedcell.hpp"
22
23#include "Atom/atom.hpp"
24#include "CodePatterns/Verbose.hpp"
25#include "CodePatterns/Range.hpp"
26#include "CodePatterns/Log.hpp"
27#include "LinearAlgebra/Vector.hpp"
28#include "LinkedCell/IPointCloud.hpp"
29#include "molecule.hpp"
30#include "Tesselation/tesselation.hpp"
31
32// ========================================================= class LinkedCell_deprecated ===========================================
33
34/** Constructor for class LinkedCell_deprecated.
35 */
36LinkedCell_deprecated::LinkedCell_deprecated() :
37 LC(NULL),
38 RADIUS(0.),
39 index(-1)
40{
41 for(int i=0;i<NDIM;i++)
42 N[i] = 0;
43 max.Zero();
44 min.Zero();
45};
46
47/** Puts all atoms in \a *mol into a linked cell list with cell's lengths of \a RADIUS
48 * \param *set LCNodeSet class with all LCNode's
49 * \param RADIUS edge length of cells
50 */
51LinkedCell_deprecated::LinkedCell_deprecated(IPointCloud & set, const double radius) :
52 LC(NULL),
53 RADIUS(radius),
54 index(-1)
55{
56 TesselPoint *Walker = NULL;
57
58 for(int i=0;i<NDIM;i++)
59 N[i] = 0;
60 max.Zero();
61 min.Zero();
62 LOG(1, "Begin of LinkedCell");
63 if (set.IsEmpty()) {
64 ELOG(1, "set is NULL or contains no linked cell nodes!");
65 return;
66 }
67 // 1. find max and min per axis of atoms
68 set.GoToFirst();
69 Walker = set.GetPoint();
70 for (int i=0;i<NDIM;i++) {
71 max[i] = Walker->at(i);
72 min[i] = Walker->at(i);
73 }
74 set.GoToFirst();
75 while (!set.IsEnd()) {
76 Walker = set.GetPoint();
77 for (int i=0;i<NDIM;i++) {
78 if (max[i] < Walker->at(i))
79 max[i] = Walker->at(i);
80 if (min[i] > Walker->at(i))
81 min[i] = Walker->at(i);
82 }
83 set.GoToNext();
84 }
85 LOG(2, "Bounding box is " << min << " and " << max << ".");
86
87 // 2. find then number of cells per axis
88 for (int i=0;i<NDIM;i++) {
89 N[i] = static_cast<int>(floor((max[i] - min[i])/RADIUS)+1);
90 }
91 LOG(2, "Number of cells per axis are " << N[0] << ", " << N[1] << " and " << N[2] << ".");
92
93 // 3. allocate the lists
94 LOG(2, "INFO: Allocating cells ... ");
95 if (LC != NULL) {
96 ELOG(1, "Linked Cell list is already allocated, I do nothing.");
97 return;
98 }
99 ASSERT(N[0]*N[1]*N[2] < MAX_LINKEDCELLNODES, "Number linked of linked cell nodes exceded hard-coded limit, use greater edge length!");
100 LC = new TesselPointSTLList[N[0]*N[1]*N[2]];
101 for (index=0;index<N[0]*N[1]*N[2];index++) {
102 LC [index].clear();
103 }
104 LOG(0, "done.");
105
106 // 4. put each atom into its respective cell
107 LOG(2, "INFO: Filling cells ... ");
108 set.GoToFirst();
109 while (!set.IsEnd()) {
110 Walker = set.GetPoint();
111 for (int i=0;i<NDIM;i++) {
112 n[i] = static_cast<int>(floor((Walker->at(i) - min[i])/RADIUS));
113 }
114 index = n[0] * N[1] * N[2] + n[1] * N[2] + n[2];
115 LC[index].push_back(Walker);
116 //LOG(2, *Walker << " goes into cell " << n[0] << ", " << n[1] << ", " << n[2] << " with No. " << index << ".");
117 set.GoToNext();
118 }
119 LOG(0, "done.");
120 LOG(1, "End of LinkedCell");
121};
122
123
124/** Destructor for class LinkedCell_deprecated.
125 */
126LinkedCell_deprecated::~LinkedCell_deprecated()
127{
128 if (LC != NULL)
129 for (index=0;index<N[0]*N[1]*N[2];index++)
130 LC[index].clear();
131 delete[](LC);
132 for(int i=0;i<NDIM;i++)
133 N[i] = 0;
134 index = -1;
135};
136
137/** Checks whether LinkedCell_deprecated::n[] is each within [0,N[]].
138 * \return if all in intervals - true, else -false
139 */
140bool LinkedCell_deprecated::CheckBounds() const
141{
142 bool status = true;
143 for(int i=0;i<NDIM;i++)
144 status = status && ((n[i] >=0) && (n[i] < N[i]));
145// if (!status)
146// ELOG(1, "indices are out of bounds!");
147 return status;
148};
149
150/** Checks whether LinkedCell_deprecated::n[] plus relative offset is each within [0,N[]].
151 * Note that for this check we don't admonish if out of bounds.
152 * \param relative[NDIM] relative offset to current cell
153 * \return if all in intervals - true, else -false
154 */
155bool LinkedCell_deprecated::CheckBounds(const int relative[NDIM]) const
156{
157 bool status = true;
158 for(int i=0;i<NDIM;i++)
159 status = status && ((n[i]+relative[i] >=0) && (n[i]+relative[i] < N[i]));
160 return status;
161};
162
163
164/** Returns a pointer to the current cell.
165 * \return LinkedAtoms pointer to current cell, NULL if LinkedCell_deprecated::n[] are out of bounds.
166 */
167const TesselPointSTLList* LinkedCell_deprecated::GetCurrentCell() const
168{
169 if (CheckBounds()) {
170 index = n[0] * N[1] * N[2] + n[1] * N[2] + n[2];
171 return (&(LC[index]));
172 } else {
173 return NULL;
174 }
175};
176
177/** Returns a pointer to the current cell.
178 * \param relative[NDIM] offset for each axis with respect to the current cell LinkedCell_deprecated::n[NDIM]
179 * \return LinkedAtoms pointer to current cell, NULL if LinkedCell_deprecated::n[]+relative[] are out of bounds.
180 */
181const TesselPointSTLList* LinkedCell_deprecated::GetRelativeToCurrentCell(const int relative[NDIM]) const
182{
183 if (CheckBounds(relative)) {
184 index = (n[0]+relative[0]) * N[1] * N[2] + (n[1]+relative[1]) * N[2] + (n[2]+relative[2]);
185 return (&(LC[index]));
186 } else {
187 return NULL;
188 }
189};
190
191/** Set the index to the cell containing a given Vector *x.
192 * \param *x Vector with coordinates
193 * \return Vector is inside bounding box - true, else - false
194 */
195bool LinkedCell_deprecated::SetIndexToVector(const Vector & x) const
196{
197 for (int i=0;i<NDIM;i++)
198 n[i] = (int)floor((x.at(i) - min[i])/RADIUS);
199
200 return CheckBounds();
201};
202
203/** Calculates the index for a given LCNode *Walker.
204 * \param *Walker LCNode to set index tos
205 * \return if the atom is also found in this cell - true, else - false
206 */
207bool LinkedCell_deprecated::SetIndexToNode(const TesselPoint * const Walker) const
208{
209 bool status = false;
210 for (int i=0;i<NDIM;i++) {
211 n[i] = static_cast<int>(floor((Walker->at(i) - min[i])/RADIUS));
212 }
213 index = n[0] * N[1] * N[2] + n[1] * N[2] + n[2];
214 if (CheckBounds()) {
215 for (TesselPointSTLList::iterator Runner = LC[index].begin(); Runner != LC[index].end(); Runner++)
216 status = status || ((*Runner) == Walker);
217 return status;
218 } else {
219 ELOG(1, "Node at " << *Walker << " is out of bounds.");
220 return false;
221 }
222};
223
224/** Calculates the interval bounds of the linked cell grid.
225 * \param lower lower bounds
226 * \param upper upper bounds
227 * \param step how deep to check the neighbouring cells (i.e. number of layers to check)
228 */
229void LinkedCell_deprecated::GetNeighbourBounds(int lower[NDIM], int upper[NDIM], int step) const
230{
231 for (int i=0;i<NDIM;i++) {
232 lower[i] = n[i]-step;
233 if (lower[i] < 0)
234 lower[i] = 0;
235 if (lower[i] >= N[i])
236 lower[i] = N[i]-1;
237 upper[i] = n[i]+step;
238 if (upper[i] >= N[i])
239 upper[i] = N[i]-1;
240 if (upper[i] < 0)
241 upper[i] = 0;
242 //LOG(0, "axis " << i << " has bounds [" << lower[i] << "," << upper[i] << "]");
243 }
244};
245
246/** Returns a list with all neighbours from the current LinkedCell_deprecated::index.
247 * \param distance (if no distance, then adjacent cells are taken)
248 * \return list of tesselpoints
249 */
250TesselPointSTLList* LinkedCell_deprecated::GetallNeighbours(const double distance) const
251{
252 int Nlower[NDIM], Nupper[NDIM];
253 TesselPoint *Walker = NULL;
254 TesselPointSTLList *TesselList = new TesselPointSTLList;
255
256 // then go through the current and all neighbouring cells and check the contained points for possible candidates
257 const int step = (distance == 0) ? 1 : (int)floor(distance/RADIUS + 1.);
258 GetNeighbourBounds(Nlower, Nupper, step);
259
260 for (n[0] = Nlower[0]; n[0] <= Nupper[0]; n[0]++)
261 for (n[1] = Nlower[1]; n[1] <= Nupper[1]; n[1]++)
262 for (n[2] = Nlower[2]; n[2] <= Nupper[2]; n[2]++) {
263 const TesselPointSTLList *List = GetCurrentCell();
264 //LOG(1, "Current cell is " << n[0] << ", " << n[1] << ", " << n[2] << " with No. " << index << ".");
265 if (List != NULL) {
266 for (TesselPointSTLList::const_iterator Runner = List->begin(); Runner != List->end(); Runner++) {
267 Walker = *Runner;
268 TesselList->push_back(Walker);
269 }
270 }
271 }
272 return TesselList;
273};
274
275/** Set the index to the cell containing a given Vector *x, which is not inside the LinkedCell_deprecated's domain
276 * Note that as we have to check distance from every corner of the closest cell, this function is faw more
277 * expensive and if Vector is known to be inside LinkedCell_deprecated's domain, then SetIndexToVector() should be used.
278 * \param *x Vector with coordinates
279 * \return minimum squared distance of cell to given vector (if inside of domain, distance is 0)
280 */
281double LinkedCell_deprecated::SetClosestIndexToOutsideVector(const Vector * const x) const
282{
283 for (int i=0;i<NDIM;i++) {
284 n[i] = (int)floor((x->at(i) - min[i])/RADIUS);
285 if (n[i] < 0)
286 n[i] = 0;
287 if (n[i] >= N[i])
288 n[i] = N[i]-1;
289 }
290
291 // calculate distance of cell to vector
292 double distanceSquared = 0.;
293 bool outside = true; // flag whether x is found in- or outside of LinkedCell_deprecated's domain/closest cell
294 Vector corner; // current corner of closest cell
295 Vector tester; // Vector pointing from corner to center of closest cell
296 Vector Distance; // Vector from corner of closest cell to x
297
298 Vector center; // center of the closest cell
299 for (int i=0;i<NDIM;i++)
300 center[i] = min[i]+((double)n[i]+.5)*RADIUS;
301
302 int c[NDIM];
303 for (c[0]=0;c[0]<=1;c[0]++)
304 for (c[1]=0; c[1]<=1;c[1]++)
305 for (c[2]=0; c[2]<=1;c[2]++) {
306 // set up corner
307 for (int i=0;i<NDIM;i++)
308 corner[i] = min[i]+RADIUS*((double)n[i]+c[i]);
309 // set up distance vector
310 Distance = (*x) - corner;
311 const double dist = Distance.NormSquared();
312 // check whether distance is smaller
313 if (dist< distanceSquared)
314 distanceSquared = dist;
315 // check whether distance vector goes inside or outside
316 tester = center -corner;
317 if (tester.ScalarProduct(Distance) < 0)
318 outside = false;
319 }
320 return (outside ? distanceSquared : 0.);
321};
322
323/** Returns a list of all TesselPoint with distance less than \a radius to \a *Center.
324 * \param radius radius of sphere
325 * \param *center center of sphere
326 * \return list of all points inside sphere
327 */
328TesselPointSTLList* LinkedCell_deprecated::GetPointsInsideSphere(const double radius, const Vector * const center) const
329{
330 const double radiusSquared = radius*radius;
331 TesselPoint *Walker = NULL;
332 TesselPointSTLList *TesselList = new TesselPointSTLList;
333 TesselPointSTLList *NeighbourList = NULL;
334
335 // set index of LC to center of sphere
336 const double dist = SetClosestIndexToOutsideVector(center);
337 if (dist > 2.*radius) {
338 ELOG(1, "Vector " << *center << " is too far away from any atom in LinkedCell's bounding box.");
339 return TesselList;
340 } else
341 LOG(1, "Distance of closest cell to center of sphere with radius " << radius << " is " << dist << ".");
342
343 // gather all neighbours first, then look who fulfills distance criteria
344 NeighbourList = GetallNeighbours(2.*radius-dist);
345 //LOG(1, "I found " << NeighbourList->size() << " neighbours to check.");
346 if (NeighbourList != NULL) {
347 for (TesselPointSTLList::const_iterator Runner = NeighbourList->begin(); Runner != NeighbourList->end(); Runner++) {
348 Walker = *Runner;
349 //LOG(1, "Current neighbour is at " << *Walker->node << ".");
350 if ((Walker->DistanceSquared(*center) - radiusSquared) < MYEPSILON) {
351 TesselList->push_back(Walker);
352 }
353 }
354 delete(NeighbourList);
355 } else
356 ELOG(2, "Around vector " << *center << " there are no atoms.");
357 return TesselList;
358};
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