/* * ===================================================================================== * * .d8888b 88888b. .d88b. .d8888b 888d888 8888b. 88888b.d88b. * 88K 888 "88b d8P Y8b 88K 888P" "88b 888 "888 "88b * "Y8888b. 888 888 88888888 "Y8888b. 888 .d888888 888 888 888 * X88 888 888 Y8b. X88 888 888 888 888 888 888 * 88888P' 888 888 "Y8888 88888P' 888 "Y888888 888 888 888 * * www.optixx.org * * * Version: 1.0 * Created: 07/21/2009 03:32:16 PM * Author: david@optixx.org * * ===================================================================================== */ #ifndef __FIFO_H__ #define __FIFO_H__ #include #include typedef struct { uint8_t volatile count; // # Zeichen im Puffer uint8_t size; // Puffer-Größe uint8_t *pread; // Lesezeiger uint8_t *pwrite; // Schreibzeiger uint8_t read2end, write2end; // # Zeichen bis zum Überlauf Lese-/Schreibzeiger } fifo_t; extern void fifo_init(fifo_t *, uint8_t * buf, const uint8_t size); extern uint8_t fifo_put(fifo_t *, const uint8_t data); extern uint8_t fifo_get_wait(fifo_t *); extern int fifo_get_nowait(fifo_t *); static inline uint8_t _inline_fifo_put(fifo_t * f, const uint8_t data) { if (f->count >= f->size) return 0; uint8_t *pwrite = f->pwrite; *(pwrite++) = data; uint8_t write2end = f->write2end; if (--write2end == 0) { write2end = f->size; pwrite -= write2end; } f->write2end = write2end; f->pwrite = pwrite; uint8_t sreg = SREG; cli(); f->count++; SREG = sreg; return 1; } static inline uint8_t _inline_fifo_get(fifo_t * f) { uint8_t *pread = f->pread; uint8_t data = *(pread++); uint8_t read2end = f->read2end; if (--read2end == 0) { read2end = f->size; pread -= read2end; } f->pread = pread; f->read2end = read2end; uint8_t sreg = SREG; cli(); f->count--; SREG = sreg; return data; } #endif /* _FIFO_H_ */