My poll() problem still persists, after I exit or terminate my client, poll() starts spamming POLLIN revents in my server executable, I'm clueless as to why this is happening after it worked fine about a month ago.
Could someone with experience in poll() please help me, otherwise, I'll be forced to comment out one bit of my server at a time to see which part seems to be changing the behavior of poll() (Even though poll() itself is giving me false data).
I know, but poll is giving me false information for some reason, and if I'm not modifying the data, that could only mean one thing
I've tried compiling with a different version of C++, killing the client with 'killall' (to make sure that the client is actually dead) and tinkering around to see which events get triggered, but I've had no luck
I was kind of thinking of something, wouldn't a lot of the confusion around initializer lists vs constructors be avoided if C++ had used different characters instead of {} for list initialization? What about <>? Wouldn't the compiler have been able to handle std::vector<int> someVector<10,2> (vector of size 10 with value 2)? I know it looks a bit like declaring a template but I can't think of a case where the template parameter would be on the variable name offhand.
There's probably a reason why they couldn't use <>
So, I'd say we can look at this, but we need a good stress test to reproduce. I need a database script so I can repro locally, looking at the code in peace and also tweaking mysql configs, perhaps.
@jrh Bingo
Also, {} made sense due to aggregate iniitialization
The "problem" with {} is indeed "a lot of the confusion around initializer lists vs constructors" (your words) and none of that changes with the syntax. It is not so much any kind of lexical ambiguity. It's just the deduction rules for initializers lists and overload priority in that case.
@jrh More like, you can just use the same syntax and it will use C++ if applicable.
@jrh This is why they called it "uniform initialization". And that's basically the top reason it gets criticism: the syntax is uniform(er) but the behaviour isn't (always)
The rules for aggregates have also been conveniently loosened, so you in practice can use aggregate initialization with a lot more types. I think that was c++17/c++20