// vi:ft=c #ifndef UTIL_H_ #define UTIL_H_ #include #include #include // Print a formatted message and exit with code 1 void panicf(const char *fmt, ...); uint16_t parse_port(const char *str); // Test if the bit with index i is set in the byte array bits static inline bool bit_set(uint8_t *bits, int i) { return bits[i / 8] & (1 << (i % 8)); } // Align n to the next 8 boundary static inline size_t align_8(size_t n) { return (((n - 1) >> 3) + 1) << 3; } // Align n to the next 4 boundary static inline size_t align_4(size_t n) { return (((n - 1) >> 2) + 1) << 2; } // Align n to the next 2 boundary static inline size_t align_2(size_t n) { return (((n - 1) >> 1) + 1) << 1; } uint8_t parse_hex_digit(char h); void default_to_null(void *ptr); void default_to_false(void *ptr); void default_to_zero_u8(void *ptr); void default_to_zero_u32(void *ptr); void default_to_zero_u64(void *ptr); void default_to_zero_size(void *ptr); void default_to_zero_double(void *ptr); void default_to_one_size(void *ptr); void default_to_negative_one_i32(void *ptr); void tsf_numsec_to_timespec(void *arg, void *ptr); void tsf_numsec_to_intms(void *arg, void *ptr); void tsf_uniq_to_u64(void *arg, void *ptr); void tsf_hex_to_i32(void *arg, void *ptr); void tsf_double_to_size(void *arg, void *ptr); void tsf_hex_to_color(void *arg, void *ptr); void tsf_num_to_u8_clamp(void *arg, void *ptr); void tsf_num_to_int(void *arg, void *ptr); #endif