#ifndef UTIL_FIFO16_H #define UTIL_FIFO16_H #include #include #include #include typedef struct FIFOBuffer16 { size_t *begin; size_t *end; size_t * volatile head; size_t * volatile tail; } FIFOBuffer16; inline bool fifo16_isempty(const FIFOBuffer16 *f) { return f->head == f->tail; } inline bool fifo16_isfull(const FIFOBuffer16 *f) { return ((f->head == f->begin) && (f->tail == f->end)) || (f->tail == f->head - 1); } inline void fifo16_push(FIFOBuffer16 *f, size_t c) { *(f->tail) = c; if (f->tail == f->end) { f->tail = f->begin; } else { f->tail++; } } inline size_t fifo16_pop(FIFOBuffer16 *f) { if(f->head == f->end) { f->head = f->begin; return *(f->end); } else { return *(f->head++); } } inline void fifo16_flush(FIFOBuffer16 *f) { f->head = f->tail; } static inline bool fifo16_isempty_locked(const FIFOBuffer16 *f) { bool result; ATOMIC_BLOCK(ATOMIC_RESTORESTATE) { result = fifo16_isempty(f); } return result; } static inline bool fifo16_isfull_locked(const FIFOBuffer16 *f) { bool result; ATOMIC_BLOCK(ATOMIC_RESTORESTATE) { result = fifo16_isfull(f); } return result; } static inline void fifo16_push_locked(FIFOBuffer16 *f, size_t c) { ATOMIC_BLOCK(ATOMIC_RESTORESTATE) { fifo16_push(f, c); } } static inline size_t fifo16_pop_locked(FIFOBuffer16 *f) { size_t c; ATOMIC_BLOCK(ATOMIC_RESTORESTATE) { c = fifo16_pop(f); } return c; } inline void fifo16_init(FIFOBuffer16 *f, size_t *buffer, size_t size) { f->head = f->tail = f->begin = buffer; f->end = buffer + size; } inline size_t fifo16_len(FIFOBuffer16 *f) { return (f->end - f->begin); } #endif