3 * This source code is part of
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
32 * \brief API for handling index files and index groups.
34 * The API contains functions and data structures for handling index
35 * files more conveniently than as several separate variables.
36 * In addition to basic functions for initializing the data structures and
37 * making copies, functions are provided for performing (most) set operations
38 * on sorted index groups.
39 * There is also a function for partitioning a index group based on
40 * topology information such as residues or molecules.
41 * Finally, there is a set of functions for constructing mappings between
42 * an index group and its subgroups such.
43 * These can be used with dynamic index group in calculations if one
44 * needs to have a unique ID for each possible atom/residue/molecule in the
45 * selection, e.g., for analysis of dynamics or for look-up tables.
47 * Mostly, these functions are used internally by the library and the
49 * However, some of the checking functions can be useful in user code to
50 * check the validity of input groups.
51 * Also, the mapping functions are useful when dealing with dynamic index
64 /** Stores a set of index groups. */
65 typedef struct gmx_ana_indexgrps_t gmx_ana_indexgrps_t
;
68 * Specifies the type of index partition or index mapping in several contexts.
70 * \see gmx_ana_index_make_block(), gmx_ana_indexmap_init()
74 INDEX_UNKNOWN
, /**< Unknown index type.*/
75 INDEX_ATOM
, /**< Each atom in a separate block.*/
76 INDEX_RES
, /**< Each residue in a separate block.*/
77 INDEX_MOL
, /**< Each molecule in a separate block.*/
78 INDEX_ALL
, /**< All atoms in a single block.*/
82 * Stores a single index group.
84 typedef struct gmx_ana_index_t
86 /** Number of atoms. */
92 /** Number of items allocated for \p index. */
97 * Data structure for calculating index group mappings.
99 typedef struct gmx_ana_indexmap_t
101 /** Type of the mapping. */
104 * Current number of mapped values.
106 * This is the current number of values in the \p refid and \p mapid
108 * If \p bMaskOnly is provided to gmx_ana_indexmap_update(), this
109 * is always equal to \p b.nr, i.e., the number of blocks in the
110 * original index group.
114 * Current reference IDs.
116 * This array provides a mapping from the current index group (last given
117 * to gmx_ana_indexmap_update()) to the blocks in \p b, i.e., the
118 * original index group used in gmx_ana_indexmap_init().
119 * The mapping is zero-based.
120 * If \p bMaskOnly is provided to gmx_ana_indexmap_update(), the indices
121 * for blocks not present in the current group are set to -1, otherwise
122 * they are removed completely and the \p nr field updated.
126 * Current mapped IDs.
128 * This array provides an arbitrary mapping from the current index group
129 * to the original index group. Instead of a zero-based mapping, the
130 * values from the \p orgid array are used. That is,
131 * \c mapid[i]=orgid[refid[i]].
132 * If \p bMaskOnly is provided to gmx_ana_indexmap_update(), this array
137 * Mapped block structure.
139 * A block structure that corresponds to the current index group.
144 * Arbitrary ID numbers for the blocks.
146 * This array has \p b.nr elements, each defining an ID number for a
148 * These are initialized in gmx_ana_indexmap_init() based on the type:
149 * - \ref INDEX_ATOM : the atom indices
150 * - \ref INDEX_RES : the residue numbers
151 * - \ref INDEX_MOL : the molecule numbers
153 * All the above numbers are zero-based.
154 * After gmx_ana_indexmap_init(), the user is free to change these values
155 * if the above are not appropriate.
156 * The mapped values can be read through \p mapid.
161 * Block data that defines the mapping (internal use only).
163 * The data is initialized by gmx_ana_indexmap_init() and is not changed
165 * Hence, it cannot be directly applied to the index group passed to
166 * gmx_ana_indexmap_update() unless \p bMaskOnly was specified or the
167 * index group is identical to the one provided to gmx_ana_indexmap_init().
171 * TRUE if the current reference IDs are for the whole group (internal use only).
173 * This is used internally to optimize the evaluation such that
174 * gmx_ana_indexmap_update() does not take any time if the group is
179 * TRUE if the current mapping is for the whole group (internal use only).
181 * This is used internally to optimize the evaluation such that
182 * gmx_ana_indexmap_update() does not take any time if the group is
186 } gmx_ana_indexmap_t
;
189 /*! \name Functions for handling gmx_ana_indexgrps_t
192 /** Allocate memory for index groups. */
194 gmx_ana_indexgrps_alloc(gmx_ana_indexgrps_t
**g
, int ngrps
);
195 /** Initializes index groups from arrays. */
197 gmx_ana_indexgrps_set(gmx_ana_indexgrps_t
**g
, int ngrps
, int *isize
,
198 atom_id
**index
, char **name
, bool bFree
);
199 /** Reads index groups from a file or constructs them from topology. */
201 gmx_ana_indexgrps_init(gmx_ana_indexgrps_t
**g
, t_topology
*top
,
203 /** Ask user to select index groups, possibly constructing groups from
206 gmx_ana_indexgrps_get(gmx_ana_indexgrps_t
**g
, t_topology
*top
,
207 const char *fnm
, int ngrps
);
208 /** Ask user to select index groups from those specified in a file. */
210 gmx_ana_indexgrps_rd(gmx_ana_indexgrps_t
**g
, const char *fnm
, int ngrps
);
211 /** Frees memory allocated for index groups. */
213 gmx_ana_indexgrps_free(gmx_ana_indexgrps_t
*g
);
214 /** Create a deep copy of \c gmx_ana_indexgrps_t. */
216 gmx_ana_indexgrps_clone(gmx_ana_indexgrps_t
**dest
, gmx_ana_indexgrps_t
*src
);
217 /** Returns TRUE if the index group structure is emtpy. */
219 gmx_ana_indexgrps_is_empty(gmx_ana_indexgrps_t
*g
);
221 /** Returns a pointer to an index group. */
222 extern gmx_ana_index_t
*
223 gmx_ana_indexgrps_get_grp(gmx_ana_indexgrps_t
*g
, int n
);
224 /** Extracts a single index group. */
226 gmx_ana_indexgrps_extract(gmx_ana_index_t
*dest
, gmx_ana_indexgrps_t
*src
, int n
);
227 /** Finds and extracts a single index group by name. */
229 gmx_ana_indexgrps_find(gmx_ana_index_t
*dest
, gmx_ana_indexgrps_t
*src
, char *name
);
231 /** Writes out a list of index groups. */
233 gmx_ana_indexgrps_print(gmx_ana_indexgrps_t
*g
, int maxn
);
236 /*! \name Functions for handling gmx_ana_index_t
239 /** Reserves memory to store an index group of size \p isize. */
241 gmx_ana_index_reserve(gmx_ana_index_t
*g
, int isize
);
242 /** Frees any memory not necessary to hold the current contents. */
244 gmx_ana_index_squeeze(gmx_ana_index_t
*g
);
245 /** Initializes an empty index group. */
247 gmx_ana_index_clear(gmx_ana_index_t
*g
);
248 /** Constructs a \c gmx_ana_index_t from given values. */
250 gmx_ana_index_set(gmx_ana_index_t
*g
, int isize
, atom_id
*index
, char *name
,
252 /** Creates a simple index group from the first to the \p natoms'th atom. */
254 gmx_ana_index_init_simple(gmx_ana_index_t
*g
, int natoms
, char *name
);
255 /** Frees memory allocated for an index group. */
257 gmx_ana_index_deinit(gmx_ana_index_t
*g
);
258 /** Copies a \c gmx_ana_index_t. */
260 gmx_ana_index_copy(gmx_ana_index_t
*dest
, gmx_ana_index_t
*src
, bool bAlloc
);
262 /** Writes out the contents of a index group. */
264 gmx_ana_index_dump(gmx_ana_index_t
*g
, int i
, int maxn
);
266 /** Checks whether all indices are between 0 and \p natoms. */
268 gmx_ana_index_check(gmx_ana_index_t
*g
, int natoms
);
269 /** Checks whether an index group is sorted. */
271 gmx_ana_index_check_sorted(gmx_ana_index_t
*g
);
274 /*! \name Functions for set operations on gmx_ana_index_t
277 /** Sorts the indices within an index group. */
279 gmx_ana_index_sort(gmx_ana_index_t
*g
);
280 /** Checks whether two index groups are equal. */
282 gmx_ana_index_equals(gmx_ana_index_t
*a
, gmx_ana_index_t
*b
);
283 /** Checks whether a sorted index group contains another sorted index group. */
285 gmx_ana_index_contains(gmx_ana_index_t
*a
, gmx_ana_index_t
*b
);
287 /** Calculates the intersection between two sorted index groups. */
289 gmx_ana_index_intersection(gmx_ana_index_t
*dest
,
290 gmx_ana_index_t
*a
, gmx_ana_index_t
*b
);
291 /** Calculates the set difference between two sorted index groups. */
293 gmx_ana_index_difference(gmx_ana_index_t
*dest
,
294 gmx_ana_index_t
*a
, gmx_ana_index_t
*b
);
295 /** Calculates the size of the difference between two sorted index groups. */
297 gmx_ana_index_difference_size(gmx_ana_index_t
*a
, gmx_ana_index_t
*b
);
298 /** Calculates the union of two sorted index groups. */
300 gmx_ana_index_union(gmx_ana_index_t
*dest
,
301 gmx_ana_index_t
*a
, gmx_ana_index_t
*b
);
302 /** Merges two distinct sorted index groups. */
304 gmx_ana_index_merge(gmx_ana_index_t
*dest
,
305 gmx_ana_index_t
*a
, gmx_ana_index_t
*b
);
306 /** Calculates the intersection and the difference in one call. */
308 gmx_ana_index_partition(gmx_ana_index_t
*dest1
, gmx_ana_index_t
*dest2
,
309 gmx_ana_index_t
*src
, gmx_ana_index_t
*g
);
312 /*! \name Functions for handling gmx_ana_indexmap_t and related things
315 /** Partition a group based on topology information. */
317 gmx_ana_index_make_block(t_blocka
*t
, t_topology
*top
, gmx_ana_index_t
*g
,
318 e_index_t type
, bool bComplete
);
319 /** Checks whether a group consists of full blocks. */
321 gmx_ana_index_has_full_blocks(gmx_ana_index_t
*g
, t_block
*b
);
322 /** Checks whether a group consists of full blocks. */
324 gmx_ana_index_has_full_ablocks(gmx_ana_index_t
*g
, t_blocka
*b
);
325 /** Checks whether a group consists of full residues/molecules. */
327 gmx_ana_index_has_complete_elems(gmx_ana_index_t
*g
, e_index_t type
, t_topology
*top
);
329 /** Initializes an empty index group mapping. */
331 gmx_ana_indexmap_clear(gmx_ana_indexmap_t
*m
);
332 /** Reserves memory for an index group mapping. */
334 gmx_ana_indexmap_reserve(gmx_ana_indexmap_t
*m
, int nr
, int isize
);
335 /** Initialize index group mapping. */
337 gmx_ana_indexmap_init(gmx_ana_indexmap_t
*m
, gmx_ana_index_t
*g
,
338 t_topology
*top
, e_index_t type
);
339 /** Frees memory allocated for index group mapping. */
341 gmx_ana_indexmap_deinit(gmx_ana_indexmap_t
*m
);
342 /** Makes a deep copy of an index group mapping. */
344 gmx_ana_indexmap_copy(gmx_ana_indexmap_t
*dest
, gmx_ana_indexmap_t
*src
, bool bFirst
);
345 /** Updates an index group mapping. */
347 gmx_ana_indexmap_update(gmx_ana_indexmap_t
*m
, gmx_ana_index_t
*g
, bool bMaskOnly
);