#ifndef MY_UTIL_H_ #define MY_UTIL_H_ #ifndef F_CPU # warning "F_CPU not defined" #endif #include #include #include #include #include #include #include /* Return the smaller value of 'a' and 'b'. */ #define min(a, b) ({ \ __typeof__(a) __amin = (a); \ __typeof__(b) __bmin = (b); \ (__typeof__(a))(__amin < __bmin ? __amin : __bmin); \ }) /* Return the bigger value of 'a' and 'b'. */ #define max(a, b) ({ \ __typeof__(a) __amax = (a); \ __typeof__(b) __bmax = (b); \ (__typeof__(a))(__amax > __bmax ? __amax : __bmax); \ }) /* Return 'value' clamped inbetween 'min_val' and 'max_val'. */ #define clamp(value, min_val, max_val) \ max(min(value, max_val), min_val) /* Return the absolute value of 'val' */ #undef abs #define abs(val) ({ \ __typeof__(val) __val = (val); \ __val >= 0 ? __val : -__val; \ }) /* Round an unsigned integer 'n' up to a multiple of 's'. */ #define round_up(n, s) ((((n) + (s) - 1) / (s)) * (s)) /* Perform a signed ceiling division of 'x' / 'd'. */ #define sdiv_round_up(x, d) ({ \ __typeof__(x) __r, __x = (x); \ __typeof__(d) __d = (d); \ if ((__x < 0) ^ (__d < 0)) \ __r = __x / __d; \ else if ((__x < 0) && (__d < 0)) \ __r = (__x + __d + 1) / __d; \ else \ __r = (__x + __d - 1) / __d; \ __r; \ }) /* Perform an unsigned ceiling division of 'x' / 'd'. */ #define udiv_round_up(x, d) ({ \ __typeof__(x) __x = (x); \ __typeof__(d) __d = (d); \ (__x + __d - 1) / __d; \ }) /* Divide signed integer x by signed integer d and * round to the closest result. */ #define sdiv_round(x, d) ({ \ __typeof__(x) __r, __x = (x); \ __typeof__(d) __d = (d); \ if ((__x < 0) ^ (__d < 0)) \ __r = (__x - (__d / 2)) / __d; \ else \ __r = (__x + (__d / 2)) / __d; \ __r; \ }) /* Divide unsigned integer x by unsigned integer d and * round to the closest result. */ #define udiv_round(x, d) ({ \ __typeof__(x) __x = (x); \ __typeof__(d) __d = (d); \ (__x + (__d / 2)) / __d; \ }) /* Swap values 'a' and 'b' in place. * Also checks whether 'a' and 'b' are of the same type. */ #define swap_values(a, b) do { \ __typeof__(a) __a = (a); \ __typeof__(b) __b = (b); \ __typeof__(a) __tmp = __a; \ (void)((&__a) == (&__b)); \ (a) = __b; \ (b) = __tmp; \ } while (0) /* Return the number of elements in a C array. */ #define ARRAY_SIZE(x) (sizeof(x) / sizeof((x)[0])) /* Memory barrier. */ #define mb() __asm__ __volatile__("" : : : "memory") /* Do-not-inline function attribute. */ #define noinline __attribute__((__noinline__)) /* Pure-function attribute. */ #define pure_fn __attribute__((__pure__)) /* Const-function attribute. */ #define const_fn __attribute__((__const__)) /* Data structure packing attribute. */ #define _packed __attribute__((__packed__)) /* Build-time assertion. * 'cond' must be a compile-time constant. * Build will fail, if 'cond' is false. */ #define build_assert(cond) ((void)sizeof(char[1 - 2 * !(cond)])) /* Code flow attributes */ #define noreturn __attribute__((__noreturn__)) #define _mainfunc __attribute__((__OS_main__)) #if defined(__GNUC__) && __GNUC__ >= 4 && __GNUC_MINOR__ >= 5 # define unreachable() __builtin_unreachable() #else # define unreachable() while (1) #endif /* Non-standard integer types. */ typedef __int24 int24_t; typedef __uint24 uint24_t; /* Disable interrupts globally. */ static inline void irq_disable(void) { cli(); mb(); } /* Enable interrupts globally. */ static inline void irq_enable(void) { mb(); sei(); } /* Save flags and disable interrupts globally. */ static inline uint8_t irq_disable_save(void) { uint8_t sreg = SREG; cli(); mb(); return sreg; } /* Restore interrupt flags. */ static inline void irq_restore(uint8_t sreg_flags) { mb(); SREG = sreg_flags; } /* Check whether the interrupt-enable flag is set in 'sreg_flags' */ static inline bool __irqs_enabled(uint8_t sreg_flags) { return !!(sreg_flags & (1 << SREG_I)); } /* Check whether interrupts are enabled globally. */ static inline bool irqs_enabled(void) { return __irqs_enabled(SREG); } /* Indirect special function register access. */ typedef uint16_t sfr_addr_t; #define SFR_ADDR(sfr) _SFR_ADDR(sfr) #define SFR_BYTE(sfr_addr) _MMIO_BYTE(sfr_addr) #endif /* MY_UTIL_H_ */