This source file includes following definitions.
- string_equals
- string_hash
- check_equals
- check_equals_by_forward_iteration
- check_equals_by_backward_iteration
- check_all
- main
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18 #include <config.h>
19
20 #include "gl_rbtreehash_list.h"
21
22 #include <limits.h>
23 #include <stdlib.h>
24 #include <string.h>
25
26 #include "gl_array_list.h"
27 #include "macros.h"
28
29 extern void gl_rbtreehash_list_check_invariants (gl_list_t list);
30
31 static const char *objects[15] =
32 {
33 "a", "b", "c", "d", "e", "f", "g", "h", "i", "j", "k", "l", "m", "n", "o"
34 };
35
36 #define SIZE_BITS (sizeof (size_t) * CHAR_BIT)
37
38 static bool
39 string_equals (const void *x1, const void *x2)
40 {
41 const char *s1 = x1;
42 const char *s2 = x2;
43 return strcmp (s1, s2) == 0;
44 }
45
46
47
48
49 static size_t
50 string_hash (const void *x)
51 {
52 const char *s = x;
53 size_t h = 0;
54
55 for (; *s; s++)
56 h = *s + ((h << 9) | (h >> (SIZE_BITS - 9)));
57
58 return h;
59 }
60
61 #define RANDOM(n) (rand () % (n))
62 #define RANDOM_OBJECT() objects[RANDOM (SIZEOF (objects))]
63
64 static void
65 check_equals (gl_list_t list1, gl_list_t list2)
66 {
67 size_t n, i;
68
69 n = gl_list_size (list1);
70 ASSERT (n == gl_list_size (list2));
71 for (i = 0; i < n; i++)
72 {
73 ASSERT (gl_list_get_at (list1, i) == gl_list_get_at (list2, i));
74 }
75 }
76
77 static void
78 check_equals_by_forward_iteration (gl_list_t list1, gl_list_t list2)
79 {
80 gl_list_node_t node1 = gl_list_first_node (list1);
81 gl_list_node_t node2 = gl_list_first_node (list2);
82 while (node1 != NULL && node2 != NULL)
83 {
84 ASSERT (gl_list_node_value (list1, node1)
85 == gl_list_node_value (list2, node2));
86 node1 = gl_list_next_node (list1, node1);
87 node2 = gl_list_next_node (list2, node2);
88 }
89 ASSERT ((node1 == NULL) == (node2 == NULL));
90 }
91
92 static void
93 check_equals_by_backward_iteration (gl_list_t list1, gl_list_t list2)
94 {
95 gl_list_node_t node1 = gl_list_last_node (list1);
96 gl_list_node_t node2 = gl_list_last_node (list2);
97 while (node1 != NULL && node2 != NULL)
98 {
99 ASSERT (gl_list_node_value (list1, node1)
100 == gl_list_node_value (list2, node2));
101 node1 = gl_list_previous_node (list1, node1);
102 node2 = gl_list_previous_node (list2, node2);
103 }
104 ASSERT ((node1 == NULL) == (node2 == NULL));
105 }
106
107 static void
108 check_all (gl_list_t list1, gl_list_t list2, gl_list_t list3)
109 {
110 gl_rbtreehash_list_check_invariants (list2);
111 gl_rbtreehash_list_check_invariants (list3);
112 check_equals (list1, list2);
113 check_equals (list1, list3);
114 }
115
116 int
117 main (int argc, char *argv[])
118 {
119 gl_list_t list1, list2, list3;
120
121
122 if (argc > 1)
123 srand (atoi (argv[1]));
124
125 {
126 size_t initial_size = RANDOM (50);
127 const void **contents =
128 (const void **) malloc (initial_size * sizeof (const void *));
129 size_t i;
130 unsigned int repeat;
131
132 for (i = 0; i < initial_size; i++)
133 contents[i] = RANDOM_OBJECT ();
134
135
136 list1 = gl_list_nx_create (GL_ARRAY_LIST,
137 string_equals, string_hash, NULL, true,
138 initial_size, contents);
139 ASSERT (list1 != NULL);
140
141 list2 = gl_list_nx_create_empty (GL_RBTREEHASH_LIST,
142 string_equals, string_hash, NULL, true);
143 ASSERT (list2 != NULL);
144 for (i = 0; i < initial_size; i++)
145 ASSERT (gl_list_nx_add_last (list2, contents[i]) != NULL);
146
147
148 list3 = gl_list_nx_create (GL_RBTREEHASH_LIST,
149 string_equals, string_hash, NULL, true,
150 initial_size, contents);
151 ASSERT (list3 != NULL);
152
153 check_all (list1, list2, list3);
154
155 check_equals_by_forward_iteration (list1, list2);
156 check_equals_by_backward_iteration (list1, list2);
157
158 for (repeat = 0; repeat < 10000; repeat++)
159 {
160 unsigned int operation = RANDOM (18);
161 switch (operation)
162 {
163 case 0:
164 if (gl_list_size (list1) > 0)
165 {
166 size_t index = RANDOM (gl_list_size (list1));
167 const char *obj = RANDOM_OBJECT ();
168 gl_list_node_t node1, node2, node3;
169
170 node1 = gl_list_nx_set_at (list1, index, obj);
171 ASSERT (node1 != NULL);
172 ASSERT (gl_list_get_at (list1, index) == obj);
173 ASSERT (gl_list_node_value (list1, node1) == obj);
174
175 node2 = gl_list_nx_set_at (list2, index, obj);
176 ASSERT (node2 != NULL);
177 ASSERT (gl_list_get_at (list2, index) == obj);
178 ASSERT (gl_list_node_value (list2, node2) == obj);
179
180 node3 = gl_list_nx_set_at (list3, index, obj);
181 ASSERT (node3 != NULL);
182 ASSERT (gl_list_get_at (list3, index) == obj);
183 ASSERT (gl_list_node_value (list3, node3) == obj);
184
185 if (index > 0)
186 {
187 ASSERT (gl_list_node_value (list1, gl_list_previous_node (list1, node1))
188 == gl_list_get_at (list1, index - 1));
189 ASSERT (gl_list_node_value (list2, gl_list_previous_node (list3, node3))
190 == gl_list_get_at (list2, index - 1));
191 ASSERT (gl_list_node_value (list3, gl_list_previous_node (list3, node3))
192 == gl_list_get_at (list2, index - 1));
193 }
194 if (index + 1 < gl_list_size (list1))
195 {
196 ASSERT (gl_list_node_value (list1, gl_list_next_node (list1, node1))
197 == gl_list_get_at (list1, index + 1));
198 ASSERT (gl_list_node_value (list2, gl_list_next_node (list3, node3))
199 == gl_list_get_at (list2, index + 1));
200 ASSERT (gl_list_node_value (list3, gl_list_next_node (list3, node3))
201 == gl_list_get_at (list2, index + 1));
202 }
203 }
204 break;
205 case 1:
206 {
207 const char *obj = RANDOM_OBJECT ();
208 gl_list_node_t node1, node2, node3;
209 node1 = gl_list_search (list1, obj);
210 node2 = gl_list_search (list2, obj);
211 node3 = gl_list_search (list3, obj);
212 if (node1 == NULL)
213 {
214 ASSERT (node2 == NULL);
215 ASSERT (node3 == NULL);
216 }
217 else
218 {
219 ASSERT (node2 != NULL);
220 ASSERT (node3 != NULL);
221 ASSERT (gl_list_node_value (list1, node1) == obj);
222 ASSERT (gl_list_node_value (list2, node2) == obj);
223 ASSERT (gl_list_node_value (list3, node3) == obj);
224 }
225 }
226 break;
227 case 2:
228 {
229 const char *obj = RANDOM_OBJECT ();
230 size_t index1, index2, index3;
231 index1 = gl_list_indexof (list1, obj);
232 index2 = gl_list_indexof (list2, obj);
233 index3 = gl_list_indexof (list3, obj);
234 if (index1 == (size_t)(-1))
235 {
236 ASSERT (index2 == (size_t)(-1));
237 ASSERT (index3 == (size_t)(-1));
238 }
239 else
240 {
241 ASSERT (index2 != (size_t)(-1));
242 ASSERT (index3 != (size_t)(-1));
243 ASSERT (gl_list_get_at (list1, index1) == obj);
244 ASSERT (gl_list_get_at (list2, index2) == obj);
245 ASSERT (gl_list_get_at (list3, index3) == obj);
246 ASSERT (index2 == index1);
247 ASSERT (index3 == index1);
248 }
249 }
250 break;
251 case 3:
252 {
253 const char *obj = RANDOM_OBJECT ();
254 gl_list_node_t node1, node2, node3;
255 node1 = gl_list_nx_add_first (list1, obj);
256 ASSERT (node1 != NULL);
257 node2 = gl_list_nx_add_first (list2, obj);
258 ASSERT (node2 != NULL);
259 node3 = gl_list_nx_add_first (list3, obj);
260 ASSERT (node3 != NULL);
261 ASSERT (gl_list_node_value (list1, node1) == obj);
262 ASSERT (gl_list_node_value (list2, node2) == obj);
263 ASSERT (gl_list_node_value (list3, node3) == obj);
264 ASSERT (gl_list_get_at (list1, 0) == obj);
265 ASSERT (gl_list_get_at (list2, 0) == obj);
266 ASSERT (gl_list_get_at (list3, 0) == obj);
267 }
268 break;
269 case 4:
270 {
271 const char *obj = RANDOM_OBJECT ();
272 gl_list_node_t node1, node2, node3;
273 node1 = gl_list_nx_add_last (list1, obj);
274 ASSERT (node1 != NULL);
275 node2 = gl_list_nx_add_last (list2, obj);
276 ASSERT (node2 != NULL);
277 node3 = gl_list_nx_add_last (list3, obj);
278 ASSERT (node3 != NULL);
279 ASSERT (gl_list_node_value (list1, node1) == obj);
280 ASSERT (gl_list_node_value (list2, node2) == obj);
281 ASSERT (gl_list_node_value (list3, node3) == obj);
282 ASSERT (gl_list_get_at (list1, gl_list_size (list1) - 1) == obj);
283 ASSERT (gl_list_get_at (list2, gl_list_size (list2) - 1) == obj);
284 ASSERT (gl_list_get_at (list3, gl_list_size (list3) - 1) == obj);
285 }
286 break;
287 case 5:
288 {
289 const char *obj0 = RANDOM_OBJECT ();
290 const char *obj1 = RANDOM_OBJECT ();
291 const char *obj2 = RANDOM_OBJECT ();
292 gl_list_node_t node1, node2, node3;
293 node1 = gl_list_nx_add_first (list1, obj2);
294 ASSERT (node1 != NULL);
295 node1 = gl_list_nx_add_before (list1, node1, obj0);
296 ASSERT (node1 != NULL);
297 node1 = gl_list_nx_add_after (list1, node1, obj1);
298 ASSERT (node1 != NULL);
299 node2 = gl_list_nx_add_first (list2, obj2);
300 ASSERT (node2 != NULL);
301 node2 = gl_list_nx_add_before (list2, node2, obj0);
302 ASSERT (node2 != NULL);
303 node2 = gl_list_nx_add_after (list2, node2, obj1);
304 ASSERT (node2 != NULL);
305 node3 = gl_list_nx_add_first (list3, obj2);
306 ASSERT (node3 != NULL);
307 node3 = gl_list_nx_add_before (list3, node3, obj0);
308 ASSERT (node3 != NULL);
309 node3 = gl_list_nx_add_after (list3, node3, obj1);
310 ASSERT (node3 != NULL);
311 ASSERT (gl_list_node_value (list1, node1) == obj1);
312 ASSERT (gl_list_node_value (list2, node2) == obj1);
313 ASSERT (gl_list_node_value (list3, node3) == obj1);
314 ASSERT (gl_list_get_at (list1, 0) == obj0);
315 ASSERT (gl_list_get_at (list1, 1) == obj1);
316 ASSERT (gl_list_get_at (list1, 2) == obj2);
317 ASSERT (gl_list_get_at (list2, 0) == obj0);
318 ASSERT (gl_list_get_at (list2, 1) == obj1);
319 ASSERT (gl_list_get_at (list2, 2) == obj2);
320 ASSERT (gl_list_get_at (list3, 0) == obj0);
321 ASSERT (gl_list_get_at (list3, 1) == obj1);
322 ASSERT (gl_list_get_at (list3, 2) == obj2);
323 }
324 break;
325 case 6:
326 {
327 size_t index = RANDOM (gl_list_size (list1) + 1);
328 const char *obj = RANDOM_OBJECT ();
329 gl_list_node_t node1, node2, node3;
330 node1 = gl_list_nx_add_at (list1, index, obj);
331 ASSERT (node1 != NULL);
332 node2 = gl_list_nx_add_at (list2, index, obj);
333 ASSERT (node2 != NULL);
334 node3 = gl_list_nx_add_at (list3, index, obj);
335 ASSERT (node3 != NULL);
336 ASSERT (gl_list_get_at (list1, index) == obj);
337 ASSERT (gl_list_node_value (list1, node1) == obj);
338 ASSERT (gl_list_get_at (list2, index) == obj);
339 ASSERT (gl_list_node_value (list2, node2) == obj);
340 ASSERT (gl_list_get_at (list3, index) == obj);
341 ASSERT (gl_list_node_value (list3, node3) == obj);
342 if (index > 0)
343 {
344 ASSERT (gl_list_node_value (list1, gl_list_previous_node (list1, node1))
345 == gl_list_get_at (list1, index - 1));
346 ASSERT (gl_list_node_value (list2, gl_list_previous_node (list3, node3))
347 == gl_list_get_at (list2, index - 1));
348 ASSERT (gl_list_node_value (list3, gl_list_previous_node (list3, node3))
349 == gl_list_get_at (list2, index - 1));
350 }
351 if (index + 1 < gl_list_size (list1))
352 {
353 ASSERT (gl_list_node_value (list1, gl_list_next_node (list1, node1))
354 == gl_list_get_at (list1, index + 1));
355 ASSERT (gl_list_node_value (list2, gl_list_next_node (list3, node3))
356 == gl_list_get_at (list2, index + 1));
357 ASSERT (gl_list_node_value (list3, gl_list_next_node (list3, node3))
358 == gl_list_get_at (list2, index + 1));
359 }
360 }
361 break;
362 case 7: case 8:
363 if (gl_list_size (list1) > 0)
364 {
365 size_t n = gl_list_size (list1);
366 const char *obj = gl_list_get_at (list1, RANDOM (n));
367 gl_list_node_t node1, node2, node3;
368 node1 = gl_list_search (list1, obj);
369 node2 = gl_list_search (list2, obj);
370 node3 = gl_list_search (list3, obj);
371 ASSERT (node1 != NULL);
372 ASSERT (node2 != NULL);
373 ASSERT (node3 != NULL);
374 ASSERT (gl_list_remove_node (list1, node1));
375 ASSERT (gl_list_remove_node (list2, node2));
376 ASSERT (gl_list_remove_node (list3, node3));
377 ASSERT (gl_list_size (list1) == n - 1);
378 }
379 break;
380 case 9: case 10:
381 if (gl_list_size (list1) > 0)
382 {
383 size_t n = gl_list_size (list1);
384 size_t index = RANDOM (n);
385 ASSERT (gl_list_remove_at (list1, index));
386 ASSERT (gl_list_remove_at (list2, index));
387 ASSERT (gl_list_remove_at (list3, index));
388 ASSERT (gl_list_size (list1) == n - 1);
389 }
390 break;
391 case 11:
392 {
393 size_t n = gl_list_size (list1);
394 bool removed1 = gl_list_remove_first (list1);
395 ASSERT (gl_list_remove_first (list2) == removed1);
396 ASSERT (gl_list_remove_first (list3) == removed1);
397 ASSERT (gl_list_size (list1) == n - (int) removed1);
398 }
399 break;
400 case 12:
401 {
402 size_t n = gl_list_size (list1);
403 bool removed1 = gl_list_remove_last (list1);
404 ASSERT (gl_list_remove_last (list2) == removed1);
405 ASSERT (gl_list_remove_last (list3) == removed1);
406 ASSERT (gl_list_size (list1) == n - (int) removed1);
407 }
408 break;
409 case 13: case 14:
410 if (gl_list_size (list1) > 0)
411 {
412 size_t n = gl_list_size (list1);
413 const char *obj = gl_list_get_at (list1, RANDOM (n));
414 ASSERT (gl_list_remove (list1, obj));
415 ASSERT (gl_list_remove (list2, obj));
416 ASSERT (gl_list_remove (list3, obj));
417 ASSERT (gl_list_size (list1) == n - 1);
418 }
419 break;
420 case 15:
421 if (gl_list_size (list1) > 0)
422 {
423 size_t n = gl_list_size (list1);
424 const char *obj = "xyzzy";
425 ASSERT (!gl_list_remove (list1, obj));
426 ASSERT (!gl_list_remove (list2, obj));
427 ASSERT (!gl_list_remove (list3, obj));
428 ASSERT (gl_list_size (list1) == n);
429 }
430 break;
431 case 16:
432 {
433 size_t n = gl_list_size (list1);
434 gl_list_iterator_t iter1, iter2, iter3;
435 const void *elt;
436 iter1 = gl_list_iterator (list1);
437 iter2 = gl_list_iterator (list2);
438 iter3 = gl_list_iterator (list3);
439 for (i = 0; i < n; i++)
440 {
441 ASSERT (gl_list_iterator_next (&iter1, &elt, NULL));
442 ASSERT (gl_list_get_at (list1, i) == elt);
443 ASSERT (gl_list_iterator_next (&iter2, &elt, NULL));
444 ASSERT (gl_list_get_at (list2, i) == elt);
445 ASSERT (gl_list_iterator_next (&iter3, &elt, NULL));
446 ASSERT (gl_list_get_at (list3, i) == elt);
447 }
448 ASSERT (!gl_list_iterator_next (&iter1, &elt, NULL));
449 ASSERT (!gl_list_iterator_next (&iter2, &elt, NULL));
450 ASSERT (!gl_list_iterator_next (&iter3, &elt, NULL));
451 gl_list_iterator_free (&iter1);
452 gl_list_iterator_free (&iter2);
453 gl_list_iterator_free (&iter3);
454 }
455 break;
456 case 17:
457 {
458 size_t end = RANDOM (gl_list_size (list1) + 1);
459 size_t start = RANDOM (end + 1);
460 gl_list_iterator_t iter1, iter2, iter3;
461 const void *elt;
462 iter1 = gl_list_iterator_from_to (list1, start, end);
463 iter2 = gl_list_iterator_from_to (list2, start, end);
464 iter3 = gl_list_iterator_from_to (list3, start, end);
465 for (i = start; i < end; i++)
466 {
467 ASSERT (gl_list_iterator_next (&iter1, &elt, NULL));
468 ASSERT (gl_list_get_at (list1, i) == elt);
469 ASSERT (gl_list_iterator_next (&iter2, &elt, NULL));
470 ASSERT (gl_list_get_at (list2, i) == elt);
471 ASSERT (gl_list_iterator_next (&iter3, &elt, NULL));
472 ASSERT (gl_list_get_at (list3, i) == elt);
473 }
474 ASSERT (!gl_list_iterator_next (&iter1, &elt, NULL));
475 ASSERT (!gl_list_iterator_next (&iter2, &elt, NULL));
476 ASSERT (!gl_list_iterator_next (&iter3, &elt, NULL));
477 gl_list_iterator_free (&iter1);
478 gl_list_iterator_free (&iter2);
479 gl_list_iterator_free (&iter3);
480 }
481 break;
482 }
483 check_all (list1, list2, list3);
484 }
485
486 gl_list_free (list1);
487 gl_list_free (list2);
488 gl_list_free (list3);
489 free (contents);
490 }
491
492 return 0;
493 }