/* * Dispose an completion structure. */ void free_completion (Completion * cp) { gl_list_free (cp->completions); gl_list_free (cp->matches); if (cp->flags & CFLAG_FILENAME) astr_delete (cp->path); free (cp); }
void merge_ctxt_free (merge_ctxt *ctxt) { smerger_free (ctxt->global_smerger); gl_list_free (ctxt->priorities); return; }
static void html_ostream::free (html_ostream_t stream) { stream->curr_class_stack_size = 0; emit_pending_spans (stream, true); gl_list_free (stream->class_stack); free (stream); }
/* * level_disasm() */ static void level_disasm(uint8_t dunno, uint8_t levno) { uint32_t i; b3level_t *level; FILE *fp; uint16_t offset; rangeSkipList = gl_list_create_empty(GL_ARRAY_LIST, NULL, NULL, range_free, 1); level = readMap(duns[dunno].levels[levno]); currentLevel.dataStartOffset = level->dataBaseOffset; currentLevel.monsterIndex = level->monIndex; if ((dunno == 11) && (levno == 0)) currentLevel.codeStartOffset = 4; else currentLevel.codeStartOffset = 0; fp = xfopen(mkCodePath("%s-%d.code", duns[dunno].name, levno), "wb"); #undef DUMP_CODE #ifdef DUMP_CODE dump_btstring(bts_sprintf("%s-%d.dump", duns[dunno].name, levno), level->codeBuf, 0); #endif for (i = 0; i < level->dataCount; i++) { offset = level->dataList[i].offset; fprintf(fp, "(%3d, %3d) offset: %04x\n", level->dataList[i].sqE, level->dataList[i].sqN, offset ); } fprintf(fp, "=====================================\n"); disasmCode(fp, level->codeBuf, level->dataBaseOffset); gl_list_free(rangeSkipList); rangeSkipList = NULL; fclose(fp); freeLevel(level); }
/* * city_disasm() */ static void city_disasm(uint8_t cityno) { uint32_t i; b3city_t *city; FILE *fp; uint16_t offset; rangeSkipList = gl_list_create_empty(GL_ARRAY_LIST, NULL, NULL, range_free, 1); city = readCity(cityno); currentLevel.dataStartOffset = city->dataBaseOffset; currentLevel.monsterIndex = city->monsterIndex; currentLevel.codeStartOffset = 0; fp = xfopen(mkCodePath("%s.code", cityList[cityno].name, 0), "wb"); for (i = 0; i < city->dataCount; i++) { offset = city->dataList[i].offset; fprintf(fp, "(%3d, %3d) offset: %04x\n", city->dataList[i].sqE, city->dataList[i].sqN, offset ); } fprintf(fp, "=====================================\n"); #undef DUMP_CODE #ifdef DUMP_CODE dump_btstring(bts_sprintf("%s.dump", cityList[cityno].name), city->codeBuf, 1); #endif disasmCode(fp, city->codeBuf, city->dataBaseOffset); gl_list_free(rangeSkipList); rangeSkipList = NULL; fclose(fp); freeCity(city); }
int main (int argc, char *argv[]) { gl_list_t list1, list2; set_program_name (argv[0]); /* Allow the user to provide a non-default random seed on the command line. */ if (argc > 1) srand (atoi (argv[1])); { size_t initial_size = RANDOM (50); const void **contents = (const void **) malloc (initial_size * sizeof (const void *)); size_t i; unsigned int repeat; for (i = 0; i < initial_size; i++) contents[i] = RANDOM_OBJECT (); /* Create list1. */ list1 = gl_list_create (GL_ARRAY_LIST, NULL, NULL, NULL, true, initial_size, contents); /* Create list2. */ list2 = gl_list_create_empty (GL_ARRAY_LIST, NULL, NULL, NULL, true); for (i = 0; i < initial_size; i++) gl_list_add_last (list2, contents[i]); check_equals (list1, list2); for (repeat = 0; repeat < 10000; repeat++) { unsigned int operation = RANDOM (16); switch (operation) { case 0: if (gl_list_size (list1) > 0) { size_t index = RANDOM (gl_list_size (list1)); const char *obj = RANDOM_OBJECT (); gl_list_node_t node1, node2; node1 = gl_list_set_at (list1, index, obj); ASSERT (gl_list_get_at (list1, index) == obj); ASSERT (gl_list_node_value (list1, node1) == obj); node2 = gl_list_set_at (list2, index, obj); ASSERT (gl_list_get_at (list2, index) == obj); ASSERT (gl_list_node_value (list2, node2) == obj); if (index > 0) { ASSERT (gl_list_node_value (list1, gl_list_previous_node (list1, node1)) == gl_list_get_at (list1, index - 1)); } if (index + 1 < gl_list_size (list1)) { ASSERT (gl_list_node_value (list1, gl_list_next_node (list1, node1)) == gl_list_get_at (list1, index + 1)); } } break; case 1: { const char *obj = RANDOM_OBJECT (); gl_list_node_t node1, node2; node1 = gl_list_search (list1, obj); node2 = gl_list_search (list2, obj); if (node1 == NULL) { ASSERT (node2 == NULL); } else { ASSERT (node2 != NULL); ASSERT (gl_list_node_value (list1, node1) == obj); ASSERT (gl_list_node_value (list2, node2) == obj); } } break; case 2: { const char *obj = RANDOM_OBJECT (); size_t index1, index2; index1 = gl_list_indexof (list1, obj); index2 = gl_list_indexof (list2, obj); if (index1 == (size_t)(-1)) { ASSERT (index2 == (size_t)(-1)); } else { ASSERT (index2 != (size_t)(-1)); ASSERT (gl_list_get_at (list1, index1) == obj); ASSERT (gl_list_get_at (list2, index2) == obj); ASSERT (index2 == index1); } } break; case 3: /* add 1 element */ { const char *obj = RANDOM_OBJECT (); gl_list_node_t node1, node2; node1 = gl_list_add_first (list1, obj); node2 = gl_list_add_first (list2, obj); ASSERT (gl_list_node_value (list1, node1) == obj); ASSERT (gl_list_node_value (list2, node2) == obj); ASSERT (gl_list_get_at (list1, 0) == obj); ASSERT (gl_list_get_at (list2, 0) == obj); } break; case 4: /* add 1 element */ { const char *obj = RANDOM_OBJECT (); gl_list_node_t node1, node2; node1 = gl_list_add_last (list1, obj); node2 = gl_list_add_last (list2, obj); ASSERT (gl_list_node_value (list1, node1) == obj); ASSERT (gl_list_node_value (list2, node2) == obj); ASSERT (gl_list_get_at (list1, gl_list_size (list1) - 1) == obj); ASSERT (gl_list_get_at (list2, gl_list_size (list2) - 1) == obj); } break; case 5: /* add 3 elements */ { const char *obj0 = RANDOM_OBJECT (); const char *obj1 = RANDOM_OBJECT (); const char *obj2 = RANDOM_OBJECT (); gl_list_node_t node1, node2; node1 = gl_list_add_first (list1, obj2); node1 = gl_list_add_before (list1, node1, obj0); node1 = gl_list_add_after (list1, node1, obj1); node2 = gl_list_add_first (list2, obj2); node2 = gl_list_add_before (list2, node2, obj0); node2 = gl_list_add_after (list2, node2, obj1); ASSERT (gl_list_node_value (list1, node1) == obj1); ASSERT (gl_list_node_value (list2, node2) == obj1); ASSERT (gl_list_get_at (list1, 0) == obj0); ASSERT (gl_list_get_at (list1, 1) == obj1); ASSERT (gl_list_get_at (list1, 2) == obj2); ASSERT (gl_list_get_at (list2, 0) == obj0); ASSERT (gl_list_get_at (list2, 1) == obj1); ASSERT (gl_list_get_at (list2, 2) == obj2); } break; case 6: /* add 1 element */ { size_t index = RANDOM (gl_list_size (list1) + 1); const char *obj = RANDOM_OBJECT (); gl_list_node_t node1, node2; node1 = gl_list_add_at (list1, index, obj); node2 = gl_list_add_at (list2, index, obj); ASSERT (gl_list_get_at (list1, index) == obj); ASSERT (gl_list_node_value (list1, node1) == obj); ASSERT (gl_list_get_at (list2, index) == obj); ASSERT (gl_list_node_value (list2, node2) == obj); if (index > 0) { ASSERT (gl_list_node_value (list1, gl_list_previous_node (list1, node1)) == gl_list_get_at (list1, index - 1)); } if (index + 1 < gl_list_size (list1)) { ASSERT (gl_list_node_value (list1, gl_list_next_node (list1, node1)) == gl_list_get_at (list1, index + 1)); } } break; case 7: case 8: /* remove 1 element */ if (gl_list_size (list1) > 0) { size_t n = gl_list_size (list1); const char *obj = gl_list_get_at (list1, RANDOM (n)); gl_list_node_t node1, node2; node1 = gl_list_search (list1, obj); node2 = gl_list_search (list2, obj); ASSERT (node1 != NULL); ASSERT (node2 != NULL); ASSERT (gl_list_remove_node (list1, node1)); ASSERT (gl_list_remove_node (list2, node2)); ASSERT (gl_list_size (list1) == n - 1); } break; case 9: case 10: /* remove 1 element */ if (gl_list_size (list1) > 0) { size_t n = gl_list_size (list1); size_t index = RANDOM (n); ASSERT (gl_list_remove_at (list1, index)); ASSERT (gl_list_remove_at (list2, index)); ASSERT (gl_list_size (list1) == n - 1); } break; case 11: case 12: /* remove 1 element */ if (gl_list_size (list1) > 0) { size_t n = gl_list_size (list1); const char *obj = gl_list_get_at (list1, RANDOM (n)); ASSERT (gl_list_remove (list1, obj)); ASSERT (gl_list_remove (list2, obj)); ASSERT (gl_list_size (list1) == n - 1); } break; case 13: if (gl_list_size (list1) > 0) { size_t n = gl_list_size (list1); const char *obj = "xyzzy"; ASSERT (!gl_list_remove (list1, obj)); ASSERT (!gl_list_remove (list2, obj)); ASSERT (gl_list_size (list1) == n); } break; case 14: { size_t n = gl_list_size (list1); gl_list_iterator_t iter1, iter2; const void *elt; iter1 = gl_list_iterator (list1); iter2 = gl_list_iterator (list2); for (i = 0; i < n; i++) { ASSERT (gl_list_iterator_next (&iter1, &elt, NULL)); ASSERT (gl_list_get_at (list1, i) == elt); ASSERT (gl_list_iterator_next (&iter2, &elt, NULL)); ASSERT (gl_list_get_at (list2, i) == elt); } ASSERT (!gl_list_iterator_next (&iter1, &elt, NULL)); ASSERT (!gl_list_iterator_next (&iter2, &elt, NULL)); gl_list_iterator_free (&iter1); gl_list_iterator_free (&iter2); } break; case 15: { size_t end = RANDOM (gl_list_size (list1) + 1); size_t start = RANDOM (end + 1); gl_list_iterator_t iter1, iter2; const void *elt; iter1 = gl_list_iterator_from_to (list1, start, end); iter2 = gl_list_iterator_from_to (list2, start, end); for (i = start; i < end; i++) { ASSERT (gl_list_iterator_next (&iter1, &elt, NULL)); ASSERT (gl_list_get_at (list1, i) == elt); ASSERT (gl_list_iterator_next (&iter2, &elt, NULL)); ASSERT (gl_list_get_at (list2, i) == elt); } ASSERT (!gl_list_iterator_next (&iter1, &elt, NULL)); ASSERT (!gl_list_iterator_next (&iter2, &elt, NULL)); gl_list_iterator_free (&iter1); gl_list_iterator_free (&iter2); } break; } check_equals (list1, list2); } gl_list_free (list1); gl_list_free (list2); free (contents); } return 0; }
int main (int argc, char *argv[]) { gl_oset_t set1; gl_list_t set2; set_program_name (argv[0]); /* Allow the user to provide a non-default random seed on the command line. */ if (argc > 1) srand (atoi (argv[1])); { size_t initial_size = RANDOM (20); size_t i; unsigned int repeat; /* Create set1. */ set1 = gl_oset_nx_create_empty (GL_ARRAY_OSET, (gl_setelement_compar_fn) strcmp, NULL); ASSERT (set1 != NULL); /* Create set2. */ set2 = gl_list_create_empty (GL_ARRAY_LIST, NULL, NULL, NULL, false); check_all (set1, set2); /* Initialize them. */ for (i = 0; i < initial_size; i++) { const char *obj = RANDOM_OBJECT (); ASSERT (gl_oset_nx_add (set1, obj) == (gl_sortedlist_search (set2, (gl_listelement_compar_fn)strcmp, obj) != NULL ? false : (gl_sortedlist_add (set2, (gl_listelement_compar_fn)strcmp, obj), true))); check_all (set1, set2); } for (repeat = 0; repeat < 100000; repeat++) { unsigned int operation = RANDOM (3); switch (operation) { case 0: { const char *obj = RANDOM_OBJECT (); ASSERT (gl_oset_search (set1, obj) == (gl_sortedlist_search (set2, (gl_listelement_compar_fn)strcmp, obj) != NULL)); } break; case 1: { const char *obj = RANDOM_OBJECT (); ASSERT (gl_oset_nx_add (set1, obj) == (gl_sortedlist_search (set2, (gl_listelement_compar_fn)strcmp, obj) != NULL ? false : (gl_sortedlist_add (set2, (gl_listelement_compar_fn)strcmp, obj), true))); } break; case 2: { const char *obj = RANDOM_OBJECT (); ASSERT (gl_oset_remove (set1, obj) == gl_sortedlist_remove (set2, (gl_listelement_compar_fn)strcmp, obj)); } break; } check_all (set1, set2); } gl_oset_free (set1); gl_list_free (set2); } return 0; }
void bc_free_coordmap(CoordMap* coordMap) { gl_list_free(*(coordMap->entries)); free(coordMap->entries); free(coordMap); }