GRASS GIS 8 Programmer's Manual  8.2.2dev(2023)-3d2c704037
struct_alloc.c
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1 /*!
2  \file lib/vector/diglib/struct_alloc.c
3 
4  \brief Vector library - allocate and zero array space (lower level functions)
5 
6  Lower level functions for reading/writing/manipulating vectors.
7 
8  These routines all eventually call calloc() to allocate and zero the
9  new space. BUT It is not necessarily safe to assume that the memory
10  will be zero. The next memory location asked for could have been
11  previously used and not zeroed. (e.g. compress()).
12 
13  This program is free software under the GNU General Public License
14  (>=v2). Read the file COPYING that comes with GRASS for details.
15 
16  \author CERL (probably Dave Gerdes)
17  \author Radim Blazek
18 */
19 
20 #include <stdlib.h>
21 #include <grass/vector.h>
22 #include <grass/glocale.h>
23 
24 /*!
25  \brief Allocate new node structure
26 
27  \return pointer to allocated P_node struct
28  \return NULL on error
29 */
31 {
32  struct P_node *Node;
33 
34  Node = (struct P_node *) G_malloc(sizeof(struct P_node));
35  if (Node == NULL)
36  return NULL;
37 
38  G_zero(Node, sizeof(struct P_node));
39 
40  return Node;
41 }
42 
43 /*!
44  \brief Free node structure
45 
46  \param Node pointer to P_node struct to be freed
47 */
48 void dig_free_node(struct P_node *Node)
49 {
50  if (Node->alloc_lines > 0) {
51  G_free(Node->lines);
52  G_free(Node->angles);
53  }
54 
55  G_free(Node);
56 }
57 
58 /*!
59  \brief Allocate space in P_node struct
60 
61  Lines and angles arrays to add 'add' more lines
62 
63  \param node pointer to P_node struct
64  \param add number lines to be added
65 
66  \return 0 on success
67  \return -1 on error
68 */
69 int dig_node_alloc_line(struct P_node * node, int add)
70 {
71  int num;
72  char *p;
73 
74  G_debug(5, "dig_node_alloc_line(): add = %d", add);
75 
76  if (node->n_lines + add <= node->alloc_lines)
77  return 0;
78 
79  num = node->alloc_lines + add;
80 
81  p = G_realloc(node->lines, num * sizeof(plus_t));
82  if (p == NULL)
83  return -1;
84  node->lines = (plus_t *) p;
85 
86  p = G_realloc(node->angles, num * sizeof(float));
87  if (p == NULL)
88  return -1;
89  node->angles = (float *)p;
90 
91  node->alloc_lines = num;
92 
93  return 0;
94 }
95 
96 /*!
97  \brief Reallocate array of pointers to nodes
98 
99  \param Plus pointer to Plus_head structure
100  \param add number of nodes to be added
101 
102  \return 0 on success
103  \return -1 on error
104 */
105 int dig_alloc_nodes(struct Plus_head *Plus, int add)
106 {
107  int size;
108  char *p;
109 
110  size = Plus->alloc_nodes + 1 + add;
111  p = G_realloc(Plus->Node, size * sizeof(struct P_node *));
112  if (p == NULL)
113  return -1;
114 
115  Plus->Node = (struct P_node **) p;
116  Plus->alloc_nodes = size - 1;
117 
118  return 0;
119 }
120 
121 /*!
122  \brief Allocate new line structure
123 
124  \return pointer to allocated P_node struct
125  \return NULL on error
126 */
128 {
129  struct P_line *Line;
130 
131  Line = (struct P_line *) G_malloc(sizeof(struct P_line));
132  if (Line == NULL)
133  return NULL;
134 
135  G_zero(Line, sizeof(struct P_line));
136 
137  return Line;
138 }
139 
140 /*!
141  \brief Allocate new topo struct
142 
143  \param type to of struct to allocate
144 */
145 void *dig_alloc_topo(char type)
146 {
147  void *Topo = NULL;
148 
149  switch (type) {
150  case GV_LINE:
151  Topo = G_malloc(sizeof(struct P_topo_l));
152  break;
153  case GV_BOUNDARY:
154  Topo = G_malloc(sizeof(struct P_topo_b));
155  break;
156  case GV_CENTROID:
157  Topo = G_malloc(sizeof(struct P_topo_c));
158  break;
159  case GV_FACE:
160  Topo = G_malloc(sizeof(struct P_topo_f));
161  break;
162  case GV_KERNEL:
163  Topo = G_malloc(sizeof(struct P_topo_k));
164  break;
165  default:
166  return NULL;
167  }
168 
169  return Topo;
170 }
171 
172 /*!
173  \brief Free line structure
174 
175  \param pointer to P_line struct to be freed
176 */
177 void dig_free_line(struct P_line *Line)
178 {
179  if (Line->topo)
180  G_free(Line->topo);
181  G_free(Line);
182 }
183 
184 /*!
185  \brief Reallocate array of pointers to lines.
186 
187  \param Plus pointer to Plus_head structure
188  \param add space for 'add' number of lines is added.
189 
190  \return 0 on success
191  \return -1 on error
192 */
193 int dig_alloc_lines(struct Plus_head *Plus, int add)
194 {
195  int size;
196  char *p;
197 
198  size = Plus->alloc_lines + 1 + add;
199  p = G_realloc(Plus->Line, size * sizeof(struct P_line *));
200  if (p == NULL)
201  return -1;
202 
203  Plus->Line = (struct P_line **) p;
204  Plus->alloc_lines = size - 1;
205 
206  return 0;
207 }
208 
209 /*!
210  \brief Reallocate array of pointers to areas.
211 
212  \param Plus pointer to Plus_head structure
213  \param add space for 'add' number of areas is added
214 
215  \return 0 on success
216  \return -1 on error
217 */
218 int dig_alloc_areas(struct Plus_head *Plus, int add)
219 {
220  int size;
221  char *p;
222 
223  size = Plus->alloc_areas + 1 + add;
224  p = G_realloc(Plus->Area, size * sizeof(struct P_area *));
225  if (p == NULL)
226  return -1;
227 
228  Plus->Area = (struct P_area **) p;
229  Plus->alloc_areas = size - 1;
230 
231  return 0;
232 }
233 
234 /*!
235  \brief Reallocate array of pointers to isles
236 
237  \param Plus pointer to Plus_head structure
238  \param add space for 'add' number of isles is added.
239 
240  \return 0 on success
241  \return -1 on error
242 */
243 int dig_alloc_isles(struct Plus_head *Plus, int add)
244 {
245  int size;
246  char *p;
247 
248  G_debug(5, "dig_alloc_isle():");
249  size = Plus->alloc_isles + 1 + add;
250  p = G_realloc(Plus->Isle, size * sizeof(struct P_isle *));
251  if (p == NULL)
252  return -1;
253 
254  Plus->Isle = (struct P_isle **) p;
255  Plus->alloc_isles = size - 1;
256 
257  return 0;
258 }
259 
260 /*!
261  \brief Allocate new area structure
262 
263  \return pointer to allocated P_area struct
264  \return NULL on error
265 */
267 {
268  struct P_area *Area;
269 
270  Area = (struct P_area *) G_malloc(sizeof(struct P_area));
271  if (Area == NULL)
272  return NULL;
273 
274  G_zero(Area, sizeof(struct P_area));
275 
276  return Area;
277 }
278 
279 /*!
280  \brief Free area structure
281 
282  \param Area pointer to P_area struct to be freed
283 */
284 void dig_free_area(struct P_area *Area)
285 {
286  if (Area->alloc_lines > 0)
287  free(Area->lines);
288 
289  if (Area->alloc_isles > 0)
290  free(Area->isles);
291 
292  G_free(Area);
293 }
294 
295 /*!
296  \brief Allocate new isle structure
297 
298  \return pointer to allocated P_isle struct
299  \return NULL on error
300 */
302 {
303  struct P_isle *Isle;
304 
305  Isle = (struct P_isle *) G_malloc(sizeof(struct P_isle));
306  if (Isle == NULL)
307  return NULL;
308 
309  G_zero(Isle, sizeof(struct P_isle));
310 
311  return Isle;
312 }
313 
314 /*!
315  \brief Free isle structure
316 
317  \param Isle pointer to P_isle struct to be freed
318 */
319 void dig_free_isle(struct P_isle *Isle)
320 {
321  if (Isle->alloc_lines > 0)
322  G_free(Isle->lines);
323 
324  G_free(Isle);
325 }
326 
327 /*!
328  \brief allocate room for 'num' X and Y arrays in struct line_pnts
329 
330  \param points pointer to line_pnts struct
331  \param num number of points
332 
333  \return 0 on success
334  \return returns -1 on out of memory
335 */
336 int dig_alloc_points(struct line_pnts *points, int num)
337 {
338  int alloced;
339  char *p;
340 
341  alloced = points->alloc_points;
342  /* alloc_space will just return if no space is needed */
343  if (!(p =
344  dig__alloc_space(num, &alloced, 50, (char *)points->x,
345  sizeof(double)))) {
346  return (dig_out_of_memory());
347  }
348  points->x = (double *)p;
349 
350  alloced = points->alloc_points;
351  /* alloc_space will just return if no space is needed */
352  if (!(p =
353  dig__alloc_space(num, &alloced, 50, (char *)points->y,
354  sizeof(double)))) {
355  return (dig_out_of_memory());
356  }
357  points->y = (double *)p;
358 
359  alloced = points->alloc_points;
360  /* alloc_space will just return if no space is needed */
361  if (!(p =
362  dig__alloc_space(num, &alloced, 50, (char *)points->z,
363  sizeof(double)))) {
364  return (dig_out_of_memory());
365  }
366  points->z = (double *)p;
367 
368  points->alloc_points = alloced;
369 
370  return 0;
371 }
372 
373 /*!
374  \brief Allocate room for 'num' fields and category arrays
375  in struct line_cats
376 
377  \param cats pointer to line_cats struct
378  \param num number of cats
379 
380  \return 0 on success
381  \return returns -1 on out of memory
382 */
383 int dig_alloc_cats(struct line_cats *cats, int num)
384 {
385  int alloced;
386  char *p;
387 
388  /* alloc_space will just return if no space is needed */
389  alloced = cats->alloc_cats;
390  if (!(p =
391  dig__alloc_space(num, &alloced, 1, (int *)cats->field,
392  sizeof(int)))) {
393  return dig_out_of_memory();
394  }
395  cats->field = (int *)p;
396 
397  alloced = cats->alloc_cats;
398  if (!(p =
399  dig__alloc_space(num, &alloced, 1, (int *)cats->cat,
400  sizeof(int)))) {
401  return dig_out_of_memory();
402  }
403  cats->cat = (int *)p;
404 
405  cats->alloc_cats = alloced;
406 
407  return 0;
408 }
409 
410 /*!
411  \brief allocate space in P_area for add new lines
412 
413  \param area pointer to P_area struct
414  \param add number of lines to be added
415 
416  \return 0 on success
417  \return -1 on error
418  */
419 int dig_area_alloc_line(struct P_area * area, int add)
420 {
421  int num;
422  char *p;
423 
424  num = area->alloc_lines + add;
425 
426  p = G_realloc(area->lines, num * sizeof(plus_t));
427  if (p == NULL)
428  return -1;
429  area->lines = (plus_t *) p;
430 
431  area->alloc_lines = num;
432 
433  return (0);
434 }
435 
436 /*!
437  \brief Allocate space in P_area for add new isles
438 
439  \param area pointer to P_area struct
440  \param add number of isle to be added
441 
442  \return 0 on success
443  \return -1 on error
444 */
445 int dig_area_alloc_isle(struct P_area * area, int add)
446 {
447  int num;
448  char *p;
449 
450  G_debug(5, "dig_area_alloc_isle(): add = %d", add);
451  num = area->alloc_isles + add;
452 
453  p = G_realloc(area->isles, num * sizeof(plus_t));
454  if (p == NULL)
455  return -1;
456  area->isles = (plus_t *) p;
457 
458  area->alloc_isles = num;
459  return (0);
460 }
461 
462 /*!
463  \brief Allocate space in P_isle for add new lines
464 
465  \param isle pointer to P_area struct
466  \param add number of isle to be added
467 
468  \return 0 on success
469  \return -1 on error
470 */
471 int dig_isle_alloc_line(struct P_isle * isle, int add)
472 {
473  int num;
474  char *p;
475 
476  G_debug(5, "dig_isle_alloc_line():");
477  num = isle->alloc_lines + add;
478 
479  p = G_realloc(isle->lines, num * sizeof(plus_t));
480  if (p == NULL)
481  return -1;
482  isle->lines = (plus_t *) p;
483 
484  isle->alloc_lines = num;
485 
486  return (0);
487 }
488 
489 /*!
490  \brief For now just print message and return error code
491 */
493 {
494  G_warning(_("Out of memory"));
495  return -1;
496 }
int dig_alloc_nodes(struct Plus_head *Plus, int add)
Reallocate array of pointers to nodes.
Definition: struct_alloc.c:105
#define G_malloc(n)
Definition: defs/gis.h:112
struct P_node * dig_alloc_node()
Allocate new node structure.
Definition: struct_alloc.c:30
int plus_t
plus_t size
Definition: dig_structs.h:41
plus_t alloc_nodes
Number of allocated nodes.
Definition: dig_structs.h:974
int alloc_points
Allocated space for points.
Definition: dig_structs.h:1696
Vector geometry.
Definition: dig_structs.h:1574
struct P_line ** Line
Array of vector geometries.
Definition: dig_structs.h:887
void dig_free_isle(struct P_isle *Isle)
Free isle structure.
Definition: struct_alloc.c:319
Isle (topology) info.
Definition: dig_structs.h:1646
struct P_area ** Area
Array of areas.
Definition: dig_structs.h:891
struct P_node ** Node
Array of nodes.
Definition: dig_structs.h:883
void dig_free_area(struct P_area *Area)
Free area structure.
Definition: struct_alloc.c:284
int alloc_cats
Allocated space for categories.
Definition: dig_structs.h:1719
#define GV_CENTROID
Definition: dig_defines.h:185
plus_t n_lines
Number of attached lines (size of lines, angle)
Definition: dig_structs.h:1472
void G_free(void *)
Free allocated memory.
Definition: gis/alloc.c:149
struct P_isle ** Isle
Array of isles.
Definition: dig_structs.h:895
int dig_alloc_areas(struct Plus_head *Plus, int add)
Reallocate array of pointers to areas.
Definition: struct_alloc.c:218
plus_t * lines
List of connected lines.
Definition: dig_structs.h:1479
int dig_area_alloc_isle(struct P_area *area, int add)
Allocate space in P_area for add new isles.
Definition: struct_alloc.c:445
plus_t * isles
1st generation interior islands
Definition: dig_structs.h:1640
void free(void *)
#define NULL
Definition: ccmath.h:32
plus_t alloc_areas
Number of allocated areas.
Definition: dig_structs.h:992
Feature category info.
Definition: dig_structs.h:1702
int dig_alloc_cats(struct line_cats *cats, int num)
Allocate room for &#39;num&#39; fields and category arrays in struct line_cats.
Definition: struct_alloc.c:383
#define GV_LINE
Definition: dig_defines.h:183
plus_t alloc_lines
Allocated space for lines.
Definition: dig_structs.h:1655
plus_t alloc_lines
Allocated space for lines.
Definition: dig_structs.h:1465
int dig_out_of_memory()
For now just print message and return error code.
Definition: struct_alloc.c:492
double * x
Array of X coordinates.
Definition: dig_structs.h:1680
char type
Line type.
Definition: dig_structs.h:1586
Feature geometry info - coordinates.
Definition: dig_structs.h:1675
Centroid topology.
Definition: dig_structs.h:1532
plus_t * lines
List of boundary lines.
Definition: dig_structs.h:1621
struct P_isle * dig_alloc_isle()
Allocate new isle structure.
Definition: struct_alloc.c:301
#define GV_FACE
Definition: dig_defines.h:186
Basic topology-related info.
Definition: dig_structs.h:784
struct P_area * dig_alloc_area()
Allocate new area structure.
Definition: struct_alloc.c:266
plus_t alloc_lines
Number of allocated lines.
Definition: dig_structs.h:986
Line topology.
Definition: dig_structs.h:1494
void * topo
Topology info.
Definition: dig_structs.h:1599
int dig_alloc_isles(struct Plus_head *Plus, int add)
Reallocate array of pointers to isles.
Definition: struct_alloc.c:243
float * angles
List of angles of connected lines.
Definition: dig_structs.h:1488
Boundary topology.
Definition: dig_structs.h:1509
int * cat
Array of categories.
Definition: dig_structs.h:1711
#define GV_BOUNDARY
Definition: dig_defines.h:184
int dig_alloc_points(struct line_pnts *points, int num)
allocate room for &#39;num&#39; X and Y arrays in struct line_pnts
Definition: struct_alloc.c:336
plus_t * lines
List of boundary lines.
Definition: dig_structs.h:1662
void * dig_alloc_topo(char type)
Allocate new topo struct.
Definition: struct_alloc.c:145
void dig_free_line(struct P_line *Line)
Free line structure.
Definition: struct_alloc.c:177
Topological feature - node.
Definition: dig_structs.h:1448
int dig_area_alloc_line(struct P_area *area, int add)
allocate space in P_area for add new lines
Definition: struct_alloc.c:419
plus_t alloc_isles
Allocated space for isles.
Definition: dig_structs.h:1636
Face topology.
Definition: dig_structs.h:1543
void * dig__alloc_space(int, int *, int, void *, int)
Definition: allocation.c:50
plus_t alloc_lines
Allocated space for lines.
Definition: dig_structs.h:1614
double * y
Array of Y coordinates.
Definition: dig_structs.h:1684
Area (topology) info.
Definition: dig_structs.h:1605
Kernel topology.
Definition: dig_structs.h:1563
void G_zero(void *, int)
Zero out a buffer, buf, of length i.
Definition: gis/zero.c:23
void G_warning(const char *,...) __attribute__((format(printf
int dig_alloc_lines(struct Plus_head *Plus, int add)
Reallocate array of pointers to lines.
Definition: struct_alloc.c:193
#define G_realloc(p, n)
Definition: defs/gis.h:114
double * z
Array of Z coordinates.
Definition: dig_structs.h:1688
#define _(str)
Definition: glocale.h:10
int * field
Array of layers (fields)
Definition: dig_structs.h:1707
int dig_node_alloc_line(struct P_node *node, int add)
Allocate space in P_node struct.
Definition: struct_alloc.c:69
plus_t area
Area it exists w/in, if any.
Definition: dig_structs.h:1669
struct P_line * dig_alloc_line()
Allocate new line structure.
Definition: struct_alloc.c:127
int G_debug(int, const char *,...) __attribute__((format(printf
#define GV_KERNEL
Definition: dig_defines.h:187
plus_t alloc_isles
Number of allocated isles.
Definition: dig_structs.h:998
int dig_isle_alloc_line(struct P_isle *isle, int add)
Allocate space in P_isle for add new lines.
Definition: struct_alloc.c:471
void dig_free_node(struct P_node *Node)
Free node structure.
Definition: struct_alloc.c:48