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f7a56ebc01
Cleaned up for release at last! Signed-off-by: Michel Pollet <buserror@gmail.com>
212 lines
5.8 KiB
C
212 lines
5.8 KiB
C
/*
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fido_declare.h
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Copyright (C) 2003-2012 Michel Pollet <buserror@gmail.com>
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This library is free software; you can redistribute it and/or
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modify it under the terms of the GNU Lesser General Public
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License as published by the Free Software Foundation; either
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version 2.1 of the License, or (at your option) any later version.
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This library is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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Lesser General Public License for more details.
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You should have received a copy of the GNU Lesser General Public
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License along with this library; if not, write to the Free Software
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Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
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*/
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/*
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* FIFO helpers, aka circular buffers
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*
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* these macros define accessories for FIFOs of any name, type and
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* any (power of two) size
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*/
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#ifndef __FIFO_DECLARE__
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#define __FIFO_DECLARE__
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#ifdef __cplusplus
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extern "C" {
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#endif
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/*
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doing a :
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DECLARE_FIFO(uint8_t, myfifo, 128);
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will declare :
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enum : myfifo_overflow_f
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type : myfifo_t
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functions:
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// write a byte into the fifo, return 1 if there was room, 0 if there wasn't
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int myfifo_write(myfifo_t *c, uint8_t b);
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// reads a byte from the fifo, return 0 if empty. Use myfifo_isempty() to check beforehand
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uint8_t myfifo_read(myfifo_t *c);
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int myfifo_isfull(myfifo_t *c);
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int myfifo_isempty(myfifo_t *c);
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// returns number of items to read now
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uint16_t myfifo_get_read_size(myfifo_t *c);
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// read item at offset o from read cursor, no cursor advance
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uint8_t myfifo_read_at(myfifo_t *c, uint16_t o);
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// write b at offset o compared to current write cursor, no cursor advance
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void myfifo_write_at(myfifo_t *c, uint16_t o, uint8_t b);
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In your .c you need to 'implement' the fifo:
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DEFINE_FIFO(uint8_t, myfifo)
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To use the fifo, you must declare at least one :
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myfifo_t fifo = FIFO_NULL;
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while (!myfifo_isfull(&fifo))
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myfifo_write(&fifo, 0xaa);
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....
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while (!myfifo_isempty(&fifo))
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b = myfifo_read(&fifo);
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*/
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#include <stdint.h>
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#if __AVR__
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#define FIFO_CURSOR_TYPE uint8_t
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#define FIFO_BOOL_TYPE char
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#define FIFO_INLINE
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#define FIFO_SYNC
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#endif
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#ifndef FIFO_CURSOR_TYPE
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#define FIFO_CURSOR_TYPE uint16_t
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#endif
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#ifndef FIFO_BOOL_TYPE
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#define FIFO_BOOL_TYPE int
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#endif
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#ifndef FIFO_INLINE
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#define FIFO_INLINE inline
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#endif
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/* We should not need volatile */
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#ifndef FIFO_VOLATILE
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#define FIFO_VOLATILE
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#endif
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#ifndef FIFO_SYNC
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#define FIFO_SYNC __sync_synchronize()
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#endif
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#ifndef FIFO_ZERO_INIT
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#define FIFO_ZERO_INIT {0}
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#endif
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#define FIFO_NULL { FIFO_ZERO_INIT, 0, 0, 0 }
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/* New compilers don't like unused static functions. However,
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* we do like 'static inlines' for these small accessors,
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* so we mark them as 'unused'. It stops it complaining */
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#ifdef __GNUC__
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#define FIFO_DECL static __attribute__ ((unused))
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#else
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#define FIFO_DECL static
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#endif
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#define DECLARE_FIFO(__type, __name, __size) \
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enum { __name##_overflow_f = (1 << 0) }; \
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enum { __name##_fifo_size = (__size) }; \
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typedef struct __name##_t { \
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__type buffer[__name##_fifo_size]; \
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FIFO_VOLATILE FIFO_CURSOR_TYPE read; \
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FIFO_VOLATILE FIFO_CURSOR_TYPE write; \
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FIFO_VOLATILE uint8_t flags; \
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} __name##_t
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/*
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* This allow declaring a FIFO without the functions that use
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* pass-by-value arguments. The compiler isn't too happy using
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* some of the variable length array these days and outputs a warning.
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* Also, it is not efficient, so if your FIFO member is a big struct,
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* you should use the pass by pointer instead.
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*/
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#define DEFINE_PTR_FIFO(__type, __name) \
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FIFO_DECL FIFO_INLINE FIFO_BOOL_TYPE __name##_isfull(__name##_t *c)\
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{\
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FIFO_CURSOR_TYPE next = (c->write + 1) & (__name##_fifo_size-1);\
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return c->read == next;\
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}\
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FIFO_DECL FIFO_INLINE FIFO_BOOL_TYPE __name##_isempty(__name##_t * c)\
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{\
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return c->read == c->write;\
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}\
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FIFO_DECL FIFO_INLINE FIFO_CURSOR_TYPE __name##_get_read_size(__name##_t *c)\
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{\
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return ((c->write + __name##_fifo_size) - c->read) & (__name##_fifo_size-1);\
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}\
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FIFO_DECL FIFO_INLINE FIFO_CURSOR_TYPE __name##_get_write_size(__name##_t *c)\
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{\
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return (__name##_fifo_size-1) - __name##_get_read_size(c);\
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}\
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FIFO_DECL FIFO_INLINE void __name##_read_offset(__name##_t *c, FIFO_CURSOR_TYPE o)\
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{\
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FIFO_SYNC; \
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c->read = (c->read + o) & (__name##_fifo_size-1);\
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}\
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FIFO_DECL FIFO_INLINE void __name##_write_offset(__name##_t *c, FIFO_CURSOR_TYPE o)\
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{\
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FIFO_SYNC; \
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c->write = (c->write + o) & (__name##_fifo_size-1);\
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}\
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FIFO_DECL FIFO_INLINE void __name##_reset(__name##_t *c)\
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{\
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FIFO_SYNC; \
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c->read = c->write = c->flags = 0;\
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}\
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FIFO_DECL FIFO_INLINE __type * __name##_write_ptr(__name##_t * c) \
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{\
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return c->buffer + c->write;\
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}\
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FIFO_DECL FIFO_INLINE __type * __name##_read_ptr(__name##_t * c) \
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{\
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return c->buffer + c->read;\
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}\
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struct __name##_t
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/*
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* And this declares the whole FIFO, including the pass-by-value functions
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*/
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#define DEFINE_FIFO(__type, __name) \
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DEFINE_PTR_FIFO(__type, __name); \
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FIFO_DECL FIFO_INLINE FIFO_BOOL_TYPE __name##_write(__name##_t * c, __type b)\
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{\
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FIFO_CURSOR_TYPE now = c->write;\
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FIFO_CURSOR_TYPE next = (now + 1) & (__name##_fifo_size-1);\
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if (c->read != next) { \
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c->buffer[now] = b;\
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FIFO_SYNC; \
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c->write = next;\
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return 1;\
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}\
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return 0;\
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}\
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FIFO_DECL FIFO_INLINE __type __name##_read(__name##_t * c)\
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{\
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__type res = FIFO_ZERO_INIT; \
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FIFO_CURSOR_TYPE read = c->read;\
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if (read == c->write)\
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return res;\
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res = c->buffer[read];\
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FIFO_SYNC; \
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c->read = (read + 1) & (__name##_fifo_size-1);\
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return res;\
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}\
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FIFO_DECL FIFO_INLINE __type __name##_read_at(__name##_t *c, FIFO_CURSOR_TYPE o)\
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{\
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return c->buffer[(c->read + o) & (__name##_fifo_size-1)];\
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}\
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FIFO_DECL FIFO_INLINE void __name##_write_at(__name##_t *c, FIFO_CURSOR_TYPE o, __type b)\
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{\
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c->buffer[(c->write + o) & (__name##_fifo_size-1)] = b;\
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}\
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struct __name##_t
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#ifdef __cplusplus
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};
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#endif
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#endif
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