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// Copyright © Tavian Barnes <tavianator@tavianator.com>
// SPDX-License-Identifier: 0BSD
#include "tests.h"
#include "bfs.h"
#include "bit.h"
#include <limits.h>
#include <stdint.h>
#include <string.h>
// Polyfill C23's one-argument static_assert()
#if __STDC_VERSION__ < C23
# undef static_assert
# define static_assert(...) _Static_assert(__VA_ARGS__, #__VA_ARGS__)
#endif
static_assert(UMAX_WIDTH(0x1) == 1);
static_assert(UMAX_WIDTH(0x3) == 2);
static_assert(UMAX_WIDTH(0x7) == 3);
static_assert(UMAX_WIDTH(0xF) == 4);
static_assert(UMAX_WIDTH(0xFF) == 8);
static_assert(UMAX_WIDTH(0xFFF) == 12);
static_assert(UMAX_WIDTH(0xFFFF) == 16);
#define UWIDTH_MAX(n) (2 * ((UINTMAX_C(1) << ((n) - 1)) - 1) + 1)
#define IWIDTH_MAX(n) UWIDTH_MAX((n) - 1)
#define IWIDTH_MIN(n) (-(intmax_t)IWIDTH_MAX(n) - 1)
static_assert(UCHAR_MAX == UWIDTH_MAX(UCHAR_WIDTH));
static_assert(SCHAR_MIN == IWIDTH_MIN(SCHAR_WIDTH));
static_assert(SCHAR_MAX == IWIDTH_MAX(SCHAR_WIDTH));
static_assert(USHRT_MAX == UWIDTH_MAX(USHRT_WIDTH));
static_assert(SHRT_MIN == IWIDTH_MIN(SHRT_WIDTH));
static_assert(SHRT_MAX == IWIDTH_MAX(SHRT_WIDTH));
static_assert(UINT_MAX == UWIDTH_MAX(UINT_WIDTH));
static_assert(INT_MIN == IWIDTH_MIN(INT_WIDTH));
static_assert(INT_MAX == IWIDTH_MAX(INT_WIDTH));
static_assert(ULONG_MAX == UWIDTH_MAX(ULONG_WIDTH));
static_assert(LONG_MIN == IWIDTH_MIN(LONG_WIDTH));
static_assert(LONG_MAX == IWIDTH_MAX(LONG_WIDTH));
static_assert(ULLONG_MAX == UWIDTH_MAX(ULLONG_WIDTH));
static_assert(LLONG_MIN == IWIDTH_MIN(LLONG_WIDTH));
static_assert(LLONG_MAX == IWIDTH_MAX(LLONG_WIDTH));
static_assert(SIZE_MAX == UWIDTH_MAX(SIZE_WIDTH));
static_assert(PTRDIFF_MIN == IWIDTH_MIN(PTRDIFF_WIDTH));
static_assert(PTRDIFF_MAX == IWIDTH_MAX(PTRDIFF_WIDTH));
static_assert(UINTPTR_MAX == UWIDTH_MAX(UINTPTR_WIDTH));
static_assert(INTPTR_MIN == IWIDTH_MIN(INTPTR_WIDTH));
static_assert(INTPTR_MAX == IWIDTH_MAX(INTPTR_WIDTH));
static_assert(UINTMAX_MAX == UWIDTH_MAX(UINTMAX_WIDTH));
static_assert(INTMAX_MIN == IWIDTH_MIN(INTMAX_WIDTH));
static_assert(INTMAX_MAX == IWIDTH_MAX(INTMAX_WIDTH));
#define check_eq(a, b) \
bfs_check((a) == (b), "(0x%jX) %s != %s (0x%jX)", (uintmax_t)(a), #a, #b, (uintmax_t)(b))
void check_bit(void) {
const char *str = "\x1\x2\x3\x4\x5\x6\x7\x8";
uint32_t word;
memcpy(&word, str, sizeof(word));
#if ENDIAN_NATIVE == ENDIAN_LITTLE
check_eq(word, 0x04030201);
#elif ENDIAN_NATIVE == ENDIAN_BIG
check_eq(word, 0x01020304);
#else
# warning "Skipping byte order tests on mixed/unknown-endian machine"
#endif
check_eq(bswap((uint8_t)0x12), 0x12);
check_eq(bswap((uint16_t)0x1234), 0x3412);
check_eq(bswap((uint32_t)0x12345678), 0x78563412);
check_eq(bswap((uint64_t)0x1234567812345678), 0x7856341278563412);
// Make sure we can bswap() every unsigned type
(void)bswap((unsigned char)0);
(void)bswap((unsigned short)0);
(void)bswap(0U);
(void)bswap(0UL);
(void)bswap(0ULL);
check_eq(load8_beu8(str), 0x01);
check_eq(load8_leu8(str), 0x01);
check_eq(load8_beu16(str), 0x0102);
check_eq(load8_leu16(str), 0x0201);
check_eq(load8_beu32(str), 0x01020304);
check_eq(load8_leu32(str), 0x04030201);
check_eq(load8_beu64(str), 0x0102030405060708ULL);
check_eq(load8_leu64(str), 0x0807060504030201ULL);
check_eq(count_ones(0x0U), 0);
check_eq(count_ones(0x1U), 1);
check_eq(count_ones(0x2U), 1);
check_eq(count_ones(0x3U), 2);
check_eq(count_ones(0x137FU), 10);
check_eq(count_zeros(0U), UINT_WIDTH);
check_eq(count_zeros(0UL), ULONG_WIDTH);
check_eq(count_zeros(0ULL), ULLONG_WIDTH);
check_eq(count_zeros((uint8_t)0), 8);
check_eq(count_zeros((uint16_t)0), 16);
check_eq(count_zeros((uint32_t)0), 32);
check_eq(count_zeros((uint64_t)0), 64);
check_eq(rotate_left((uint8_t)0xA1, 4), 0x1A);
check_eq(rotate_left((uint16_t)0x1234, 12), 0x4123);
check_eq(rotate_left((uint32_t)0x12345678, 20), 0x67812345);
check_eq(rotate_left((uint32_t)0x12345678, 0), 0x12345678);
check_eq(rotate_right((uint8_t)0xA1, 4), 0x1A);
check_eq(rotate_right((uint16_t)0x1234, 12), 0x2341);
check_eq(rotate_right((uint32_t)0x12345678, 20), 0x45678123);
check_eq(rotate_right((uint32_t)0x12345678, 0), 0x12345678);
for (unsigned int i = 0; i < 16; ++i) {
uint16_t n = (uint16_t)1 << i;
for (unsigned int j = i; j < 16; ++j) {
uint16_t m = (uint16_t)1 << j;
uint16_t nm = n | m;
check_eq(count_ones(nm), 1 + (n != m));
check_eq(count_zeros(nm), 15 - (n != m));
check_eq(leading_zeros(nm), 15 - j);
check_eq(trailing_zeros(nm), i);
check_eq(first_leading_one(nm), 16 - j);
check_eq(first_trailing_one(nm), i + 1);
check_eq(bit_width(nm), j + 1);
check_eq(bit_floor(nm), m);
if (n == m) {
check_eq(bit_ceil(nm), m);
bfs_check(has_single_bit(nm));
} else {
if (j < 15) {
check_eq(bit_ceil(nm), (m << 1));
}
bfs_check(!has_single_bit(nm));
}
}
}
check_eq(leading_zeros((uint16_t)0), 16);
check_eq(trailing_zeros((uint16_t)0), 16);
check_eq(first_leading_one(0U), 0);
check_eq(first_trailing_one(0U), 0);
check_eq(bit_width(0U), 0);
check_eq(bit_floor(0U), 0);
check_eq(bit_ceil(0U), 1);
bfs_check(!has_single_bit(0U));
bfs_check(!has_single_bit(UINT32_MAX));
bfs_check(has_single_bit((uint32_t)1 << (UINT_WIDTH - 1)));
}
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