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#ifndef _FIFO_H_
#define _FIFO_H_

#include <avr/io.h>
#include <avr/interrupt.h>

// the fifo object
typedef struct
{
        uint8_t volatile count;       // # number of characters in FIFO
        uint8_t size;                 // buffer size
        uint8_t *pread;               // read pointer
        uint8_t *pwrite;              // write pointer
        uint8_t read2end, write2end;  // number of characters for buffer overflow for read/write pointers
} fifo_t;

/*
The initialization of the FIFO sets the read/write pointers etc..
The FIFO uses the buffer 'buf' which byte length must 'size'.
*/

extern void fifo_init (fifo_t*, uint8_t* buf, const uint8_t size);

/*
Puts a byte into the FIFO. Returns 1 on success ans 0 in case of FIFO overflow.
*/

extern uint8_t fifo_put (fifo_t*, const uint8_t data);

/*
Get the next byte out of the FIFO. If the FIFO is empty the function blocks
until the next byte is put into the FIFO.
*/

extern uint8_t fifo_get_wait (fifo_t*);

/*
Get the next byte from the FIFO as int. Returns -1 if the FIFO is empty.
*/

extern int16_t fifo_get_nowait (fifo_t*);


/*
The same like fifo_put
*/

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;
}

/*
Get the next byte from FIFO. Before this functionis called
it must be checked that there is a byte in the FIFO to get.
*/

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_ */