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I have several thoughts in response to your situation.
The very short summary is to use
stdout and delegate the output-file management to the shell.
The longer, rambling answer full of my personal musing is as follows:
1 : A very typical thing for C programs to do is not be in charge of how outputs are kept. You might have heard of the "built in" file handles,
stderr. These file handles are (under normal circumstances) always available to your program for input (from
stdin) and output (
stderr). As you might guess from their names
stdout is customarily used for regular output and
stderr is customarily used for error / exception output. It is exceedingly typical for a C program to simply read from
stdin and output to
stderr, and let something else (e.g., the shell) take care of what those actually are.
For example, reading from
stdin means that your program can be used for keyboard entry and for file reading, without needing to change your program's code. The same goes for
stderr; simply output to those file handles, and let the user decide whether those should go to the screen or be redirected to a file. And, because
stderr are separate file handles, the user can have them go to separate 'destinations'.
In your case, to implement this, drop the array entirely, and simply
fprintf(stdout, "event notice : %s\n", eventdetailstring);
(or similar) every time your program has something to say. Take a look at
fflush(), too, because of potential output buffering.
2a : This gets you continuous output. This itself can help with your concern about memory wear on the Pi's flash disk. If you do something like:
eventmonitor > logfile
logfile will be being appended to during the lifetime of your program, which will tend to be writing to new parts of the flash disk. Of course, if you only ever append, you will eventually run out of space on the disk, so you might set up a
cron job to kill the currently running
eventmonitor and restart it every day at midnight. Done with the above command, that would cause it to overwrite
logfile once per day. This prevents endless growth, and it might even use a new physical area of the flash drive for the new file (even though it's the same name; underneath, it's a different file, with a different inode, etc.) But even if it reuses the exact same area of the flash drive, now you are down to worrying if this will last more than 10,000 days, instead of 10,000 writes. I'm betting that within 10,000 days, new options will be available -- worst case, you buy a new Pi every 27 years or so!
There are other possible variations on this theme, as well. e.g., you could have a sophisticated script kicked off by
cron every day at midnight that kills any currently running
eventmonitor, deletes output files older than a week, and starts a new
eventmonitor outputting to a file whose filename is based partly on the date so that past days' file aren't overwritten. But all of this is in the realm of using your program. You can make your program easier to use by writing it to use
2b : Or, you can just have
stdout go to the screen, which is typically how it already is when a program is started from an interactive shell / terminal window. I imagine you could have the Pi running headless most of the time, and when you want to see what your program is outputting, hook up a monitor. Generally, things will stay running between disconnecting and reconnecting your monitor. This avoids affecting the flash drive at all.
3 : Another approach is to have your event monitoring program send its output somewhere off-system. This is getting into more advanced programming territory, so you might want to save this for a later enhancement, after you've mastered more of the basics. But, your program could establish a network connection to, say, a JSON API and send event information there. This would let you separate the functions of event monitoring from event reporting.
You will discover as you learn more programming that this idea of separation of concerns is an important concept, and applies at various levels of a program or a system of interoperating programs. In this case, the Pi is a good fit for the data monitoring aspect because it is a lightweight solution, and some other system with more capacity and more stable storage can cover the data collection aspect.