/* $OpenBSD: slist_test.c,v 1.6 2016/03/16 15:41:11 krw Exp $ */ /*- * Copyright (c) 2009 Internet Initiative Japan Inc. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ /* cc -g -Wall -o slist_test slist_test.c slist.c ./slist_test */ #include #include #include #include "slist.h" #define TEST(f) \ { \ printf("%-10s .. ", #f); \ f(); \ printf("ok\n"); \ } #define ASSERT(x) \ if (!(x)) { \ fprintf(stderr, \ "\nASSERT(%s) failed on %s() at %s:%d.\n" \ , #x, __func__, __FILE__, __LINE__); \ dump(l); \ abort(); \ } static void dump(slist *l) { int i; fprintf(stderr, "\tl->itr_curr = %d\n" "\tl->itr_next = %d\n" "\tl->first_idx = %d\n" "\tl->last_idx = %d\n" "\tl->list_size = %d\n" , l->itr_curr, l->itr_next, l->first_idx, l->last_idx , l->list_size); for (i = 0; i < slist_length(l); i++) { if ((i % 16) == 0) fprintf(stderr, "%08x ", i); fprintf(stderr, " %3d", (int)slist_get(l, i)); if ((i % 16) == 7) fprintf(stderr, " -"); if ((i % 16) == 15) fprintf(stderr, "\n"); } if ((i % 16) != 0) fprintf(stderr, "\n"); } /* Test code for removing of the first, last and middle item. */ static void test_01a() { int i, f; slist sl; slist *l = &sl; slist_init(&sl); slist_add(&sl, (void *)1); ASSERT(sl.list_size == 256); #define SETUP() \ { \ l->last_idx = 64; \ l->first_idx = 192; \ for (i = 0; i < slist_length(l); i++) { \ slist_set(l, i, (void *)i); \ } \ } /* Remove the first item. */ SETUP(); f = 0; while (slist_length(l) > 0) { slist_remove(l, 0); f++; for (i = 0; i < slist_length(l); i++) { ASSERT((int)slist_get(l, i) == i + f); } } /* Remove the last item. */ SETUP(); while (slist_length(l) > 0) { slist_remove(l, slist_length(l) - 1); for (i = 0; i < slist_length(l); i++) { ASSERT((int)slist_get(l, i) == i); } } /* Remove the second item from the end. */ SETUP(); while (slist_length(l) > 1) { slist_remove(l, slist_length(l) - 2); for (i = 0; i < slist_length(l) - 1; i++) { ASSERT((int)slist_get(l, i) == i); } if (slist_length(l) > 0) { ASSERT((int)slist_get(l, slist_length(l) - 1) == 127); } } slist_remove(l, slist_length(l) - 1); ASSERT(slist_length(l) == 0); } static void test_01() { int i; slist sl; slist *l = &sl; slist_init(&sl); for (i = 0; i < 255; i++) { slist_add(&sl, (void *)i); } for (i = 0; i < 128; i++) { slist_remove_first(&sl); } for (i = 0; i < 128; i++) { slist_add(&sl, (void *)(i + 255)); } ASSERT((int)slist_get(&sl, 127) == 255); ASSERT((int)slist_get(&sl, 254) == 129 + 253); ASSERT((int)slist_length(&sl) == 255); /* dump(&sl); */ /* printf("==\n"); */ slist_add(&sl, (void *)(128 + 255)); ASSERT((int)slist_get(&sl, 127) == 255); /* ASSERT((int)slist_get(&sl, 255) == 128 + 255); */ ASSERT((int)slist_length(&sl) == 256); /* dump(&sl); */ } static void test_02() { int i; slist sl; slist *l = &sl; slist_init(&sl); /* Place 300 items for left side and 211 items for right side. */ for (i = 0; i < 511; i++) slist_add(&sl, (void *)i); for (i = 0; i <= 300; i++) slist_remove_first(&sl); for (i = 0; i <= 300; i++) slist_add(&sl, (void *)i); /* Set values to make index number and value the same. */ for (i = 0; i < slist_length(&sl); i++) slist_set(&sl, i, (void *)(i + 1)); ASSERT(slist_length(&sl) == 511); /* The logical length is 511. */ ASSERT((int)sl.list[511] == 211); /* The most right is 211th. */ ASSERT((int)sl.list[0] == 212); /* The most left is 212th. */ ASSERT(sl.list_size == 512); /* The physical size is 512. */ slist_add(&sl, (void *)512); /* Add 512th item. */ ASSERT(sl.list_size == 768); /* The physical size is extended. */ ASSERT(slist_length(&sl) == 512); /* The logical length is 512. */ ASSERT((int)sl.list[511] == 211); /* boundary */ ASSERT((int)sl.list[512] == 212); /* boundary */ ASSERT((int)sl.list[767] == 467); /* The most right is 467th. */ ASSERT((int)sl.list[0] == 468); /* The most left is 468th. */ /* Check all items */ for (i = 0; i < slist_length(&sl); i++) ASSERT((int)slist_get(&sl, i) == i + 1); /* check */ } static void test_03() { int i; slist sl; slist *l = &sl; slist_init(&sl); slist_add(&sl, (void *)1); for (i = 0; i < 255; i++) { slist_add(&sl, (void *)1); ASSERT(sl.last_idx >= 0 && sl.last_idx < sl.list_size); slist_remove_first(&sl); ASSERT(sl.last_idx >= 0 && sl.last_idx < sl.list_size); } slist_remove(&sl, 0); ASSERT(slist_length(&sl) == 0); /* dump(&sl); */ /* TEST(test_02); */ } static void test_itr_subr_01(slist *l) { int i; for (i = 0; i < slist_length(l); i++) slist_set(l, i, (void *)(i + 1)); slist_itr_first(l); ASSERT((int)slist_itr_next(l) == 1); /* normal iterate */ ASSERT((int)slist_itr_next(l) == 2); /* normal iterate */ slist_remove(l, 2); /* remove next. "3" is removed */ ASSERT((int)slist_itr_next(l) == 4); /* removed item is skipped */ slist_remove(l, 1); /* remove past item. "2" is removed */ ASSERT((int)slist_itr_next(l) == 5); /* no influence */ ASSERT((int)slist_get(l, 0) == 1); /* checking for removing */ ASSERT((int)slist_get(l, 1) == 4); /* checking for removing */ ASSERT((int)slist_get(l, 2) == 5); /* checking for removing */ /* * Total number was 255. We removed 2 items and iterated 4 times. * 1 removing was past item, so the remaining is 250. */ for (i = 0; i < 249; i++) ASSERT(slist_itr_next(l) != NULL); ASSERT(slist_itr_next(l) != NULL); ASSERT(slist_itr_next(l) == NULL); /* * Same as above except removing before getting the last item. */ /* Reset (253 items) */ for (i = 0; i < slist_length(l); i++) slist_set(l, i, (void *)(i + 1)); slist_itr_first(l); ASSERT(slist_length(l) == 253); for (i = 0; i < 252; i++) ASSERT(slist_itr_next(l) != NULL); slist_remove(l, 252); ASSERT(slist_itr_next(l) == NULL); /* The last item is NULL */ slist_itr_first(l); while (slist_length(l) > 0) slist_remove_first(l); ASSERT(slist_length(l) == 0); ASSERT(slist_itr_next(l) == NULL); } static void test_04() { int i; slist sl; slist *l = &sl; slist_init(&sl); for (i = 0; i < 255; i++) slist_add(&sl, (void *)(i + 1)); test_itr_subr_01(&sl); for (i = 0; i < 256; i++) { /* Verify any physical placements are OK by rotating. */ sl.first_idx = i; sl.last_idx = sl.first_idx + 255; sl.last_idx %= sl.list_size; ASSERT(slist_length(&sl) == 255); test_itr_subr_01(&sl); } } /* Verify removing the last item on the physical location */ static void test_05() { int i; slist sl; slist *l = &sl; slist_init(&sl); /* Fill */ for (i = 0; i < 255; i++) { slist_add(&sl, (void *)i); } /* Remove 254 items */ for (i = 0; i < 254; i++) { slist_remove_first(&sl); } slist_set(l, 0, NULL); /* Add 7 items */ for (i = 0; i < 8; i++) { slist_add(&sl, (void *)i + 1); } ASSERT(sl.first_idx == 254); ASSERT(sl.last_idx == 7); slist_remove(l, 0); ASSERT((int)slist_get(l, 0) == 1); ASSERT((int)slist_get(l, 1) == 2); ASSERT((int)slist_get(l, 2) == 3); ASSERT((int)slist_get(l, 3) == 4); ASSERT((int)slist_get(l, 4) == 5); ASSERT((int)slist_get(l, 5) == 6); ASSERT((int)slist_get(l, 6) == 7); ASSERT((int)slist_get(l, 7) == 8); ASSERT(l->first_idx == 255); slist_remove(l, 0); ASSERT((int)slist_get(l, 0) == 2); ASSERT((int)slist_get(l, 1) == 3); ASSERT((int)slist_get(l, 2) == 4); ASSERT((int)slist_get(l, 3) == 5); ASSERT((int)slist_get(l, 4) == 6); ASSERT((int)slist_get(l, 5) == 7); ASSERT((int)slist_get(l, 6) == 8); ASSERT(l->first_idx == 0); } static void test_06() { int i, j; slist sl; slist *l = &sl; slist_init(l); for (i = 0; i < 255; i++) slist_add(l, (void *)i); i = 255; for (slist_itr_first(l); slist_itr_has_next(l); ) { ASSERT(slist_length(l) == i); slist_itr_next(l); ASSERT((int)slist_itr_remove(l) == 255 - i); ASSERT(slist_length(l) == i - 1); for (j = i; j < slist_length(l); j++) ASSERT((int)slist_get(l, j) == i + j); i--; } } static void test_07() { int i; slist sl; slist *l = &sl; slist_init(l); slist_add(l, (void *)1); slist_remove_first(l); l->first_idx = 120; l->last_idx = 120; for (i = 0; i < 255; i++) slist_add(l, (void *)i); for (i = 0, slist_itr_first(l); slist_itr_has_next(l); i++) { ASSERT((int)slist_itr_next(l) == i); if (i > 200) ASSERT((int)slist_itr_remove(l) == i); } } static void test_08() { slist sl; slist *l = &sl; slist_init(l); slist_set_size(l, 4); slist_add(l, (void *)1); slist_add(l, (void *)2); slist_add(l, (void *)3); /* [1, 2, 3] */ slist_itr_first(l); slist_itr_has_next(l); slist_itr_next(l); slist_itr_remove(l); /* [2, 3] */ slist_add(l, (void *)4); /* [2, 3, 4] */ ASSERT((int)slist_get(l, 0) == 2); ASSERT((int)slist_get(l, 1) == 3); ASSERT((int)slist_get(l, 2) == 4); slist_add(l, (void *)5); /* [2, 3, 4, 5] */ ASSERT((int)slist_get(l, 0) == 2); ASSERT((int)slist_get(l, 1) == 3); ASSERT((int)slist_get(l, 2) == 4); ASSERT((int)slist_get(l, 3) == 5); } static void test_09() { slist sl; slist *l = &sl; /* * #1 */ slist_init(l); slist_set_size(l, 3); slist_add(l, (void *)1); slist_add(l, (void *)2); slist_add(l, (void *)3); slist_itr_first(l); ASSERT((int)slist_itr_next(l) == 1); /* 1 */ ASSERT((int)slist_itr_next(l) == 2); /* 2 */ ASSERT((int)slist_itr_next(l) == 3); /* 3 */ /* reaches the last */ slist_add(l, (void *)4); /* add a new item */ ASSERT(slist_itr_has_next(l)); /* iterates the new */ ASSERT((int)slist_itr_next(l) == 4); slist_fini(l); /* * #2 */ slist_init(l); slist_set_size(l, 3); slist_add(l, (void *)1); slist_add(l, (void *)2); slist_add(l, (void *)3); slist_itr_first(l); ASSERT((int)slist_itr_next(l) == 1); /* 1 */ ASSERT((int)slist_itr_next(l) == 2); /* 2 */ ASSERT((int)slist_itr_next(l) == 3); /* 3 */ /* reaches the last */ slist_itr_remove(l); /* and remove the last*/ slist_add(l, (void *)4); /* add 4 (new last)*/ ASSERT(slist_itr_has_next(l)); /* */ ASSERT((int)slist_itr_next(l) == 4); /* 4 */ slist_fini(l); /* * #3 */ slist_init(l); slist_set_size(l, 3); slist_add(l, (void *)1); slist_add(l, (void *)2); slist_add(l, (void *)3); slist_itr_first(l); ASSERT((int)slist_itr_next(l) == 1); /* 1 */ ASSERT((int)slist_itr_next(l) == 2); /* 2 */ ASSERT((int)slist_itr_next(l) == 3); /* 3 */ /* reaches the last */ slist_add(l, (void *)4); /* add a new */ slist_itr_remove(l); ASSERT(slist_itr_has_next(l)); ASSERT((int)slist_itr_next(l) == 4); /* 4 */ slist_fini(l); /* * #4 - remove iterator's next and it is the last */ slist_init(l); slist_set_size(l, 3); slist_add(l, (void *)1); slist_add(l, (void *)2); slist_add(l, (void *)3); slist_itr_first(l); ASSERT((int)slist_itr_next(l) == 1); /* 1 */ ASSERT((int)slist_itr_next(l) == 2); /* 2 */ slist_remove(l, 2); /* remove the next */ slist_add(l, (void *)4); /* add the new next */ ASSERT(slist_itr_has_next(l)); /* iterates the new */ ASSERT((int)slist_itr_next(l) == 4); slist_fini(l); } static void test_10() { int i; slist sl; slist *l = &sl; slist_init(l); slist_add(l, (void *)1); slist_add(l, (void *)2); slist_add(l, (void *)3); slist_itr_first(l); ASSERT((int)slist_itr_next(l) == 1); ASSERT((int)slist_itr_next(l) == 2); for (i = 4; i < 10000; i++) { ASSERT(slist_itr_has_next(l)); ASSERT((int)slist_itr_next(l) == i - 1); if (i % 3 == 1) slist_add(l, (void *)i); if (i % 3 == 0) ASSERT((int)slist_itr_remove(l) == i - 1); if (i % 3 != 1) slist_add(l, (void *)i); } slist_itr_first(l); while (slist_itr_has_next(l)) { slist_itr_next(l); slist_itr_remove(l); } ASSERT((int)slist_length(l) == 0); slist_fini(l); } static void test_11() { slist sl; slist *l = &sl; slist_init(l); slist_add(l, (void *)1); slist_add(l, (void *)2); ASSERT((int)slist_remove_last(l) == 2); ASSERT((int)slist_length(l) == 1); ASSERT((int)slist_remove_last(l) == 1); ASSERT((int)slist_length(l) == 0); } static int test_12_compar(const void *a, const void *b) { return (int)a - (int)b; } static void test_12() { slist sl; slist *l = &sl; slist_init(l); slist_add(l, (void *)42); slist_add(l, (void *)15); slist_add(l, (void *)14); slist_add(l, (void *)13); slist_add(l, (void *)29); slist_add(l, (void *)15); slist_add(l, (void *)25); slist_add(l, (void *)55); slist_add(l, (void *)66); slist_add(l, (void *)23); slist_qsort(l, test_12_compar); ASSERT((int)slist_get(l, 0) == 13); ASSERT((int)slist_get(l, 1) == 14); ASSERT((int)slist_get(l, 2) == 15); ASSERT((int)slist_get(l, 3) == 15); ASSERT((int)slist_get(l, 4) == 23); ASSERT((int)slist_get(l, 5) == 25); ASSERT((int)slist_get(l, 6) == 29); ASSERT((int)slist_get(l, 7) == 42); ASSERT((int)slist_get(l, 8) == 55); ASSERT((int)slist_get(l, 9) == 66); } static void test_13() { slist sl; slist *l = &sl; slist_init(l); slist_qsort(l, test_12_compar); /* still alive without SIGFPE */ } int main(int argc, char *argv[]) { TEST(test_01); TEST(test_01a); TEST(test_02); TEST(test_03); TEST(test_04); TEST(test_05); TEST(test_06); TEST(test_07); TEST(test_08); TEST(test_09); TEST(test_10); TEST(test_11); TEST(test_12); TEST(test_13); return 0; }