/* * Copyright 2012-2015 Samy Al Bahra. * Copyright 2012-2014 AppNexus, Inc. * Copyright 2012 Shreyas Prasad. * Copyright 2014 Paul Khuong. * 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. */ #include #include #include #include #include "../../common.h" #ifndef STATIC_LENGTH #define STATIC_LENGTH 256 #endif static unsigned int length = 256; static ck_bitmap_t *g_bits; static void check_iteration(ck_bitmap_t *bits, unsigned int len, bool initial) { ck_bitmap_iterator_t iter; unsigned int i = 0, j; len += 1; if (initial == true) { if (bits == g_bits) len = length; else len = STATIC_LENGTH; } ck_bitmap_iterator_init(&iter, bits); for (j = 0; ck_bitmap_next(bits, &iter, &i) == true; j++) { if (i == j) continue; ck_error("[4] ERROR: Expected bit %u, got bit %u\n", j, i); } if (j != len) { ck_error("[5] ERROR: Expected length %u, got length %u\n", len, j); } return; } static void test(ck_bitmap_t *bits, unsigned int n_length, bool initial) { bool r; unsigned int i; CK_BITMAP_INSTANCE(8) u; CK_BITMAP_INIT(&u, 8, false); CK_BITMAP_SET(&u, 1); CK_BITMAP_SET(&u, 4); for (i = 0; i < n_length; i++) { if (ck_bitmap_test(bits, i) == !initial) { ck_error("[0] ERROR [%u]: Expected %u got %u\n", i, initial, !initial); } } for (i = 0; i < n_length; i++) { ck_bitmap_set(bits, i); if (ck_bitmap_test(bits, i) == false) { ck_error("[1] ERROR: Expected bit to be set: %u\n", i); } ck_bitmap_reset(bits, i); if (ck_bitmap_test(bits, i) == true) { ck_error("[2] ERROR: Expected bit to be cleared: %u\n", i); } r = ck_bitmap_bts(bits, i); if (r == true) { ck_error("[3] ERROR: Expected bit to be cleared before 1st bts: %u\n", i); } if (ck_bitmap_test(bits, i) == false) { ck_error("[4] ERROR: Expected bit to be set: %u\n", i); } r = ck_bitmap_bts(bits, i); if (r == false) { ck_error("[5] ERROR: Expected bit to be set before 2nd bts: %u\n", i); } if (ck_bitmap_test(bits, i) == false) { ck_error("[6] ERROR: Expected bit to be set: %u\n", i); } ck_bitmap_reset(bits, i); if (ck_bitmap_test(bits, i) == true) { ck_error("[7] ERROR: Expected bit to be cleared: %u\n", i); } ck_bitmap_set(bits, i); if (ck_bitmap_test(bits, i) == false) { ck_error("[8] ERROR: Expected bit to be set: %u\n", i); } check_iteration(bits, i, initial); } for (i = 0; i < n_length; i++) { if (ck_bitmap_test(bits, i) == false) { ck_error("[9] ERROR: Expected bit to be set: %u\n", i); } } ck_bitmap_clear(bits); for (i = 0; i < n_length; i++) { if (ck_bitmap_test(bits, i) == true) { ck_error("[10] ERROR: Expected bit to be reset: %u\n", i); } } ck_bitmap_union(bits, CK_BITMAP(&u)); if (ck_bitmap_test(bits, 1) == false || ck_bitmap_test(bits, 4) == false) { ck_error("ERROR: Expected union semantics.\n"); } return; } static void test_init(bool init) { ck_bitmap_t *bitmap; size_t bytes; unsigned int i; bytes = ck_bitmap_size(length); bitmap = malloc(bytes); memset(bitmap, random(), bytes); ck_bitmap_init(bitmap, length, init); if (ck_bitmap_bits(bitmap) != length) { ck_error("ERROR: Expected length %u got %u\n", length, ck_bitmap_bits(bitmap)); } for (i = 0; i < length; i++) { if (ck_bitmap_test(bitmap, i) != init) { ck_error("ERROR: Expected bit %i at index %u, got %i\n", (int)init, i, (int)(!init)); } } free(bitmap); } static ck_bitmap_t * random_init(void) { ck_bitmap_t *bitmap; unsigned int i; bitmap = malloc(ck_bitmap_size(length)); ck_bitmap_init(bitmap, length, false); for (i = 0; i < length; i++) { if (random() & 1) { ck_bitmap_set(bitmap, i); } } return bitmap; } static ck_bitmap_t * copy(const ck_bitmap_t *src) { ck_bitmap_t *bitmap; size_t bytes = ck_bitmap_size(ck_bitmap_bits(src)); bitmap = malloc(bytes); memcpy(bitmap, src, bytes); return bitmap; } static void test_counts(const ck_bitmap_t *x, const ck_bitmap_t *y) { unsigned int count = 0; unsigned int count_intersect = 0; unsigned int i; for (i = 0; i <= length * 2; i++) { unsigned actual_limit = i; unsigned int r; bool check; if (actual_limit > ck_bitmap_bits(x)) actual_limit = ck_bitmap_bits(x); check = ck_bitmap_empty(x, i); if (check != (count == 0)) { ck_error("ck_bitmap_empty(%u): got %i expected %i\n", i, (int)check, (int)(count == 0)); } check = ck_bitmap_full(x, i); if (check != (count == actual_limit)) { ck_error("ck_bitmap_full(%u): got %i expected %i\n", i, (int)check, (int)(count == i)); } r = ck_bitmap_count(x, i); if (r != count) { ck_error("ck_bitmap_count(%u): got %u expected %u\n", i, r, count); } r = ck_bitmap_count_intersect(x, y, i); if (r != count_intersect) { ck_error("ck_bitmap_count_intersect(%u): got %u expected %u\n", i, r, count_intersect); } if (i < length) { count += ck_bitmap_test(x, i); count_intersect += ck_bitmap_test(x, i) & ck_bitmap_test(y, i); } } } static void random_test(unsigned int seed) { ck_bitmap_t *x, *x_copy, *y; unsigned int i; srandom(seed); test_init(false); test_init(true); x = random_init(); y = random_init(); #define TEST(routine, expected) do { \ x_copy = copy(x); \ routine(x_copy, y); \ for (i = 0; i < length; i++) { \ bool xi = ck_bitmap_test(x, i); \ bool yi = ck_bitmap_test(y, i); \ bool ri = ck_bitmap_test(x_copy, i); \ bool wanted = expected(xi, yi); \ \ if (ri != wanted) { \ ck_error("In " #routine " at %u: " \ "got %i expected %i\n", \ i, ri, wanted); \ } \ } \ free(x_copy); \ } while (0) #define OR(x, y) (x | y) #define AND(x, y) (x & y) #define ANDC2(x, y) (x & (~y)) TEST(ck_bitmap_union, OR); TEST(ck_bitmap_intersection, AND); TEST(ck_bitmap_intersection_negate, ANDC2); #undef ANDC2 #undef AND #undef OR #undef TEST test_counts(x, y); for (i = 0; i < 4; i++) { ck_bitmap_init(x, length, i & 1); ck_bitmap_init(y, length, i >> 1); test_counts(x, y); } free(y); free(x); } int main(int argc, char *argv[]) { unsigned int bytes, base; size_t i, j; if (argc >= 2) { length = atoi(argv[1]); } base = ck_bitmap_base(length); bytes = ck_bitmap_size(length); fprintf(stderr, "Configuration: %u bytes\n", bytes); g_bits = malloc(bytes); memset(g_bits->map, 0xFF, base); ck_bitmap_init(g_bits, length, false); test(g_bits, length, false); memset(g_bits->map, 0x00, base); ck_bitmap_init(g_bits, length, true); test(g_bits, length, true); ck_bitmap_test(g_bits, length - 1); CK_BITMAP_INSTANCE(STATIC_LENGTH) sb; fprintf(stderr, "Static configuration: %zu bytes\n", sizeof(sb)); memset(CK_BITMAP_BUFFER(&sb), 0xFF, ck_bitmap_base(STATIC_LENGTH)); CK_BITMAP_INIT(&sb, STATIC_LENGTH, false); test(CK_BITMAP(&sb), STATIC_LENGTH, false); memset(CK_BITMAP_BUFFER(&sb), 0x00, ck_bitmap_base(STATIC_LENGTH)); CK_BITMAP_INIT(&sb, STATIC_LENGTH, true); test(CK_BITMAP(&sb), STATIC_LENGTH, true); CK_BITMAP_CLEAR(&sb); if (CK_BITMAP_TEST(&sb, 1) == true) { ck_error("ERROR: Expected bit to be reset.\n"); } CK_BITMAP_SET(&sb, 1); if (CK_BITMAP_TEST(&sb, 1) == false) { ck_error("ERROR: Expected bit to be set.\n"); } CK_BITMAP_RESET(&sb, 1); if (CK_BITMAP_TEST(&sb, 1) == true) { ck_error("ERROR: Expected bit to be reset.\n"); } for (i = 0; i < 4 * sizeof(unsigned int) * CHAR_BIT; i++) { length = i; for (j = 0; j < 10; j++) { random_test(i * 10 + j); } } return 0; }