src/undo.c: Converted plain comments into doxygen comments.
[geda-pcb/pcjc2.git] / src / vector.c
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1 /*
2 * COPYRIGHT
4 * PCB, interactive printed circuit board design
5 * Copyright (C) 1994,1995,1996 Thomas Nau
6 * Copyright (C) 1998,1999,2000,2001 harry eaton
8 * This program is free software; you can redistribute it and/or modify
9 * it under the terms of the GNU General Public License as published by
10 * the Free Software Foundation; either version 2 of the License, or
11 * (at your option) any later version.
13 * This program is distributed in the hope that it will be useful,
14 * but WITHOUT ANY WARRANTY; without even the implied warranty of
15 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
16 * GNU General Public License for more details.
18 * You should have received a copy of the GNU General Public License
19 * along with this program; if not, write to the Free Software
20 * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
22 * Contact addresses for paper mail and Email:
23 * harry eaton, 6697 Buttonhole Ct, Columbia, MD 21044 USA
24 * haceaton@aplcomm.jhuapl.edu
28 /* this file, vector.c, was written and is
29 * Copyright (c) 2001 C. Scott Ananian.
32 /* operations on vectors.
35 #ifdef HAVE_CONFIG_H
36 #include "config.h"
37 #endif
39 #include <assert.h>
40 #include <stdlib.h>
41 #ifdef HAVE_STRING_H
42 #include <string.h>
43 #endif
45 #include "global.h"
46 #include "vector.h"
48 #ifdef HAVE_LIBDMALLOC
49 #include <dmalloc.h>
50 #endif
52 /* ---------------------------------------------------------------------------
53 * some local prototypes
56 /* ---------------------------------------------------------------------------
57 * some local types
59 struct vector_struct
61 vector_element_t *element;
62 int size, max;
65 /* ---------------------------------------------------------------------------
66 * some local identifiers
69 /* ---------------------------------------------------------------------------
70 * functions.
73 /* helper function for assertions */
74 #ifndef NDEBUG
75 static int
76 __vector_is_good (vector_t * vector)
78 return vector && (vector->max == 0 || vector->element) &&
79 (vector->max >= 0) && (vector->size >= 0) &&
80 (vector->size <= vector->max) && 1;
82 #endif /* !NDEBUG */
84 /* create an empty vector */
85 vector_t *
86 vector_create ()
88 vector_t *vector;
89 /* okay, create empty vector */
90 vector = (vector_t *)calloc (1, sizeof (*vector));
91 assert (vector);
92 assert (__vector_is_good (vector));
93 return vector;
96 /* destroy a vector */
97 void
98 vector_destroy (vector_t ** vector)
100 assert (vector && *vector);
101 assert (__vector_is_good (*vector));
102 if ((*vector)->element)
103 free ((*vector)->element);
104 free (*vector);
105 *vector = NULL;
108 /* -- interrogation -- */
110 vector_is_empty (vector_t * vector)
112 assert (__vector_is_good (vector));
113 return (vector->size == 0);
117 vector_size (vector_t * vector)
119 assert (__vector_is_good (vector));
120 return (vector->size);
123 vector_element_t
124 vector_element (vector_t * vector, int N)
126 assert (__vector_is_good (vector));
127 assert (N < vector->size);
128 return vector->element[N];
131 /* return the first element of the vector. */
132 vector_element_t
133 vector_element_first (vector_t * vector)
135 assert (__vector_is_good (vector));
136 assert (vector->size > 0);
137 return vector_element (vector, 0);
140 /* return the last element of the vector. */
141 vector_element_t
142 vector_element_last (vector_t * vector)
144 assert (__vector_is_good (vector));
145 assert (vector->size > 0);
146 return vector_element (vector, vector->size - 1);
149 /* -- mutation -- */
150 /* add data to end of vector */
151 void
152 vector_append (vector_t * vector, vector_element_t data)
154 vector_insert_many (vector, vector->size, &data, 1);
157 void
158 vector_append_many (vector_t * vector, vector_element_t data[], int count)
160 vector_insert_many (vector, vector->size, data, count);
163 void
164 vector_append_vector (vector_t * vector, vector_t * other_vector)
166 vector_append_many (vector, other_vector->element, other_vector->size);
169 void
170 vector_insert (vector_t * vector, int N, vector_element_t data)
172 vector_insert_many (vector, N, &data, 1);
175 /* add data at specified position of vector */
176 void
177 vector_insert_many (vector_t * vector, int N,
178 vector_element_t data[], int count)
180 assert (__vector_is_good (vector));
181 assert (N <= vector->size);
182 if (count == 0)
183 return;
184 assert (data && count > 0);
185 if (vector->size + count > vector->max)
187 vector->max = MAX (32, MAX (vector->size + count, vector->max * 2));
188 vector->element = (void **)realloc (vector->element,
189 vector->max * sizeof (*vector->element));
191 memmove (vector->element + N + count, vector->element + N,
192 (vector->size - N) * sizeof (*vector->element));
193 memmove (vector->element + N, data, count * sizeof (*data));
194 vector->size += count;
195 assert (__vector_is_good (vector));
198 vector_t *
199 vector_duplicate (vector_t * orig)
201 vector_t * newone = vector_create();
202 if (!orig)
203 return newone;
204 newone->element = (void **)malloc (orig->max * sizeof (*orig->element));
205 newone->max = orig->max;
206 newone->size = orig->size;
207 memcpy (newone->element, orig->element, orig->size * sizeof (vector_element_t));
208 assert (__vector_is_good (newone));
209 return newone;
212 /* return and delete the *last* element of vector */
213 vector_element_t
214 vector_remove_last (vector_t * vector)
216 assert (vector->size > 0);
217 return vector_remove (vector, vector->size - 1);
220 /* return and delete data at specified position of vector */
221 vector_element_t
222 vector_remove (vector_t * vector, int N)
224 vector_element_t old;
225 assert (__vector_is_good (vector));
226 assert (N < vector->size);
227 old = vector->element[N];
228 memmove (vector->element + N, vector->element + N + 1,
229 (vector->size - (N + 1)) * sizeof (*vector->element));
230 vector->size--;
231 assert (__vector_is_good (vector));
232 return old;
235 /* replace the data at the specified position with the given data.
236 * returns the old data. */
237 vector_element_t
238 vector_replace (vector_t * vector, vector_element_t data, int N)
240 vector_element_t old;
241 assert (__vector_is_good (vector));
242 assert (N < vector->size);
243 old = vector->element[N];
244 vector->element[N] = data;
245 assert (__vector_is_good (vector));
246 return old;