minor fixes in ditribution files
[gromacs/qmmm-gamess-us.git] / src / gmxlib / selection / sm_distance.c
blob0846650e716e99e8543d59babc8b38451c04d46d
1 /*
3 * This source code is part of
5 * G R O M A C S
7 * GROningen MAchine for Chemical Simulations
9 * Written by David van der Spoel, Erik Lindahl, Berk Hess, and others.
10 * Copyright (c) 1991-2000, University of Groningen, The Netherlands.
11 * Copyright (c) 2001-2009, The GROMACS development team,
12 * check out http://www.gromacs.org for more information.
14 * This program is free software; you can redistribute it and/or
15 * modify it under the terms of the GNU General Public License
16 * as published by the Free Software Foundation; either version 2
17 * of the License, or (at your option) any later version.
19 * If you want to redistribute modifications, please consider that
20 * scientific software is very special. Version control is crucial -
21 * bugs must be traceable. We will be happy to consider code for
22 * inclusion in the official distribution, but derived work must not
23 * be called official GROMACS. Details are found in the README & COPYING
24 * files - if they are missing, get the official version at www.gromacs.org.
26 * To help us fund GROMACS development, we humbly ask that you cite
27 * the papers on the package - you can find them in the top README file.
29 * For more info, check our website at http://www.gromacs.org
31 /*! \internal \file
32 * \brief Implementation of distance-based selection methods.
34 * This file implements the \p distance, \p mindistance and \p within
35 * selection methods.
37 #ifdef HAVE_CONFIG_H
38 #include <config.h>
39 #endif
41 #include <macros.h>
42 #include <pbc.h>
43 #include <smalloc.h>
44 #include <vec.h>
46 #include <nbsearch.h>
47 #include <position.h>
48 #include <selmethod.h>
50 /*! \internal \brief
51 * Data structure for distance-based selection method.
53 * The same data structure is used by all the distance-based methods.
55 typedef struct
57 /** Cutoff distance. */
58 real cutoff;
59 /** Positions of the reference points. */
60 gmx_ana_pos_t p;
61 /** Neighborhood search data. */
62 gmx_ana_nbsearch_t *nb;
63 } t_methoddata_distance;
65 /** Allocates data for distance-based selection methods. */
66 static void *
67 init_data_common(int npar, gmx_ana_selparam_t *param);
68 /** Initializes a distance-based selection method. */
69 static int
70 init_common(t_topology *top, int npar, gmx_ana_selparam_t *param, void *data);
71 /** Frees the data allocated for a distance-based selection method. */
72 static void
73 free_data_common(void *data);
74 /** Initializes the evaluation of a distance-based within selection method for a frame. */
75 static int
76 init_frame_common(t_topology *top, t_trxframe *fr, t_pbc *pbc, void *data);
77 /** Evaluates the \p distance selection method. */
78 static int
79 evaluate_distance(t_topology *top, t_trxframe *fr, t_pbc *pbc,
80 gmx_ana_pos_t *pos, gmx_ana_selvalue_t *out, void *data);
81 /** Evaluates the \p within selection method. */
82 static int
83 evaluate_within(t_topology *top, t_trxframe *fr, t_pbc *pbc,
84 gmx_ana_pos_t *pos, gmx_ana_selvalue_t *out, void *data);
86 /** Parameters for the \p distance selection method. */
87 static gmx_ana_selparam_t smparams_distance[] = {
88 {"cutoff", {REAL_VALUE, 1, {NULL}}, NULL, SPAR_OPTIONAL},
89 {"from", {POS_VALUE, 1, {NULL}}, NULL, SPAR_DYNAMIC},
92 /** Parameters for the \p mindistance selection method. */
93 static gmx_ana_selparam_t smparams_mindistance[] = {
94 {"cutoff", {REAL_VALUE, 1, {NULL}}, NULL, SPAR_OPTIONAL},
95 {"from", {POS_VALUE, -1, {NULL}}, NULL, SPAR_DYNAMIC | SPAR_VARNUM},
98 /** Parameters for the \p within selection method. */
99 static gmx_ana_selparam_t smparams_within[] = {
100 {NULL, {REAL_VALUE, 1, {NULL}}, NULL, 0},
101 {"of", {POS_VALUE, -1, {NULL}}, NULL, SPAR_DYNAMIC | SPAR_VARNUM},
104 /** Help text for the distance selection methods. */
105 static const char *help_distance[] = {
106 "DISTANCE-BASED SELECTION KEYWORDS[PAR]",
108 "[TT]distance from POS [cutoff REAL][tt][BR]",
109 "[TT]mindistance from POS_EXPR [cutoff REAL][tt][BR]",
110 "[TT]within REAL of POS_EXPR[tt][PAR]",
112 "[TT]distance[tt] and [TT]mindistance[tt] calculate the distance from the",
113 "given position(s), the only difference being in that [TT]distance[tt]",
114 "only accepts a single position, while any number of positions can be",
115 "given for [TT]mindistance[tt], which then calculates the distance to the",
116 "closest position.",
117 "[TT]within[tt] directly selects atoms that are within [TT]REAL[tt] of",
118 "[TT]POS_EXPR[tt].[PAR]",
120 "For the first two keywords, it is possible to specify a cutoff to speed",
121 "up the evaluation: all distances above the specified cutoff are",
122 "returned as equal to the cutoff.",
123 "Currently, this does nothing, but in the future, it allows the use of",
124 "grid-based neighborhood search techniques.",
127 /** \internal Selection method data for the \p distance method. */
128 gmx_ana_selmethod_t sm_distance = {
129 "distance", REAL_VALUE, SMETH_DYNAMIC,
130 asize(smparams_distance), smparams_distance,
131 &init_data_common,
132 NULL,
133 &init_common,
134 NULL,
135 &free_data_common,
136 &init_frame_common,
137 NULL,
138 &evaluate_distance,
139 {"distance from POS [cutoff REAL]", asize(help_distance), help_distance},
142 /** \internal Selection method data for the \p distance method. */
143 gmx_ana_selmethod_t sm_mindistance = {
144 "mindistance", REAL_VALUE, SMETH_DYNAMIC,
145 asize(smparams_mindistance), smparams_mindistance,
146 &init_data_common,
147 NULL,
148 &init_common,
149 NULL,
150 &free_data_common,
151 &init_frame_common,
152 NULL,
153 &evaluate_distance,
154 {"mindistance from POS_EXPR [cutoff REAL]", asize(help_distance), help_distance},
157 /** \internal Selection method data for the \p within method. */
158 gmx_ana_selmethod_t sm_within = {
159 "within", GROUP_VALUE, SMETH_DYNAMIC,
160 asize(smparams_within), smparams_within,
161 &init_data_common,
162 NULL,
163 &init_common,
164 NULL,
165 &free_data_common,
166 &init_frame_common,
167 NULL,
168 &evaluate_within,
169 {"within REAL of POS_EXPR", asize(help_distance), help_distance},
173 * \param[in] npar Not used (should be 2).
174 * \param[in,out] param Method parameters (should point to one of the distance
175 * parameter arrays).
176 * \returns Pointer to the allocated data (\c t_methoddata_distance).
178 * Allocates memory for a \c t_methoddata_distance structure and
179 * initializes the parameter as follows:
180 * - the first parameter defines the value for
181 * \c t_methoddata_distance::cutoff.
182 * - the second parameter defines the reference positions and the value is
183 * stored in \c t_methoddata_distance::p.
185 static void *
186 init_data_common(int npar, gmx_ana_selparam_t *param)
188 t_methoddata_distance *data;
190 snew(data, 1);
191 data->cutoff = -1;
192 param[0].val.u.r = &data->cutoff;
193 param[1].val.u.p = &data->p;
194 return data;
198 * \param top Not used.
199 * \param npar Not used (should be 2).
200 * \param param Method parameters (should point to one of the distance
201 * parameter arrays).
202 * \param data Pointer to \c t_methoddata_distance to initialize.
203 * \returns 0 on success, a non-zero error code on failure.
205 * Initializes the neighborhood search data structure
206 * (\c t_methoddata_distance::nb).
207 * Also checks that the cutoff is valid.
209 static int
210 init_common(t_topology *top, int npar, gmx_ana_selparam_t *param, void *data)
212 t_methoddata_distance *d = (t_methoddata_distance *)data;
214 if ((param[0].flags & SPAR_SET) && d->cutoff <= 0)
216 fprintf(stderr, "error: distance cutoff should be > 0");
217 return -1;
219 return gmx_ana_nbsearch_create(&d->nb, d->cutoff, d->p.nr);
223 * \param data Data to free (should point to a \c t_methoddata_distance).
225 * Frees the memory allocated for \c t_methoddata_distance::xref and
226 * \c t_methoddata_distance::nb.
228 static void
229 free_data_common(void *data)
231 t_methoddata_distance *d = (t_methoddata_distance *)data;
233 gmx_ana_nbsearch_free(d->nb);
237 * \param[in] top Not used.
238 * \param[in] fr Current frame.
239 * \param[in] pbc PBC structure.
240 * \param data Should point to a \c t_methoddata_distance.
241 * \returns 0 on success, a non-zero error code on error.
243 * Initializes the neighborhood search for the current frame.
245 static int
246 init_frame_common(t_topology *top, t_trxframe *fr, t_pbc *pbc, void *data)
248 t_methoddata_distance *d = (t_methoddata_distance *)data;
250 return gmx_ana_nbsearch_pos_init(d->nb, pbc, &d->p);
254 * See sel_updatefunc_pos() for description of the parameters.
255 * \p data should point to a \c t_methoddata_distance.
257 * Calculates the distance of each position from \c t_methoddata_distance::p
258 * and puts them in \p out->u.r.
260 static int
261 evaluate_distance(t_topology *top, t_trxframe *fr, t_pbc *pbc,
262 gmx_ana_pos_t *pos, gmx_ana_selvalue_t *out, void *data)
264 t_methoddata_distance *d = (t_methoddata_distance *)data;
265 int b, i;
266 real n;
268 out->nr = pos->g->isize;
269 for (b = 0; b < pos->nr; ++b)
271 n = gmx_ana_nbsearch_pos_mindist(d->nb, pos, b);
272 for (i = pos->m.mapb.index[b]; i < pos->m.mapb.index[b+1]; ++i)
274 out->u.r[i] = n;
277 return 0;
281 * See sel_updatefunc() for description of the parameters.
282 * \p data should point to a \c t_methoddata_distance.
284 * Finds the atoms that are closer than the defined cutoff to
285 * \c t_methoddata_distance::xref and puts them in \p out.g.
287 static int
288 evaluate_within(t_topology *top, t_trxframe *fr, t_pbc *pbc,
289 gmx_ana_pos_t *pos, gmx_ana_selvalue_t *out, void *data)
291 t_methoddata_distance *d = (t_methoddata_distance *)data;
292 int b;
294 out->u.g->isize = 0;
295 for (b = 0; b < pos->nr; ++b)
297 if (gmx_ana_nbsearch_pos_is_within(d->nb, pos, b))
299 gmx_ana_pos_append(NULL, out->u.g, pos, b, 0);
302 return 0;