If you are writing something against A's interface, you shouldn't access B's members. Alternatively, if you don't know whether or not you will be receiving a B, then you can't safely access B's members. If you do know you're working with a B, then you should take a B*.
@Phantom std::array is an aggregate, literally struct array { T foo[N]; };; the outer set of braces is needed for the class itself, the inner - for the C array inside.
another example is that you have a bit of a combinatoric explosion.
for instance you could have "unarmed structure", "unarmed unit", "armed structure", "armed unit", and then things just get worse if you add more things they can or cannot do.
involves interprocess state synchronization, complete with various bits of state needing various degrees of consistency, and availability/partition tolerance too.
What I did today so far: Woke up, received food order shipment, spent 3 hours creating a picture in Tikz, made lunch and ate it, spent some time reading up on domestic violence, took a nap, woke up.
What I did today so far: Woke up, made breakfast, eat breakfast, played fallout 4 for 3 hours, watched anime for 2 hours, made lunch, eat lunch, played fallout 4 for 2 hours, watched a movie, took a nap, made lemonade, watched anime for 30 minutes, and has been staring at the chat box for 10 minutes now..
What I did today so far: woke up, ate breakfast, browsed the lounge, discord lounge, and stuff, browsed 9gag, made laundry, chatted a bit in the discord lounge, played a bit of Brutal Doom, complained about the state of programming languages and IDEs
Performance of signed vs unsigned: compare_with_constant vs divide_by_constant. Probably doesn't matter much in real applications, but I need this stuff in order to retain my guru status among colleagues :P
compare_with_constant: The int comparison never overflows so it is obviously true. The unsigned comparison needs to be checked because it might be a case of overflow.
Yeah, the assembly is mixed with the code for parameter/return value handling.
> Division by powers of 2 is faster with unsigned int, because it can be optimized into a single shift instruction. With signed int, it usually requires more machine instructions, because division rounds towards zero, but shifting to the right rounds down.