@LightnessRacesinOrbit, well I mean my implementation of my dynamic Box arrays is not correct, but it doesn't mean that dynamic array won't work. — Daniel44 secs ago
Wondering if someone could help me diagnose a network problem. My macbook pro running OSX seems to have a connection bottleneck. I have 100mbs on my other laptop but when I take the same ethernet cable and put it into my mac i'm getting less than 1mbs.
Any ideas? I'm getting equally slow speeds ...
I had a mild form of cat (hair) allergy when I was small, but that mostly subsided after living with a cat for quite a long time. I wonder how bad it's today.
@DeadMG It'd be two kitties, since I'm at work for 8h / day
@DeadMG where is this stated? sure it says that literal types can appear where a constant expression is required, but it doesn't say how one should treat it when it doesn't appear in a constant expression
Yeah, we have UI designed for use with fingers. Read: we have exactly what the Windows PDAs were, but three times larger. Good job, technology. — Lightness Races in Orbit51 secs ago
it has to be a constant expression, else you can't pass it to the template.
problem solved.
the Standard requires that A::a is ODR-used if and only if the user uses it in a context that requires the address. Your example context does not, it only requires the first value in the array and the compiler already knows this value. That's why A::a is not ODR-used.
anyone remember what section the example equivalent to int a = 1+2+3; int b[1+2+3]; is in the standard? saying that the latter is required to be evaluated during translation, but the former isn't?
since a constant expression is not required in int a = A::a[0]; we cannot follow the rules saying that A::a is usable where a constant-expression is required
go ask the robot if you want gratuitous standard quotes.
@FilipRoséen-refp And compilers cannot introduce user-observable behaviour willy-nilly.
well, they can, but not in a conformant manner.
evaluating func(123) at run-time is covered under as-if; the user cannot observe the difference between execution at translation time, and execution at run-time.
more accurately, if I recall correctly, it states that an lvalue is only ODR-used if it's used in certain contexts that require a run-time reference and not the value, or something like that.
@DeadMG And all it takes to convince someone is quoting the fucking standard rather than whittering on with nonsensical circular nonlogic, quoting your own prior nonsensical circular nonlogic as some sort of proof of your own prior nonsensical circular nonlogic
yes, bla bla bla constant-expression "that does not designate an object with static storage duration" bla bla; but the standard doesn't mandate a constant-expression in that context so the evaluation might still be post-poned
@FilipRoséen-refp "A variable or non-overloaded function whose name appears as a potentially-evaluated expression is odr-used unless it is an object that satisfies the requirements for appearing in a constant expression"
@FilipRoséen-refp Can't be postponed because postponing it would require that it's ODR-used, which is exactly what the passage just said that it can't be.
and you can't go around ODR-using things behind people's backs if you're the implementation because the user can observe that fact and as-if does not apply; unlike evaluating other constant expressions like 1 + 2 + 3 at run-time.
@Filip Okay so that passage is gone, but it only means they relaxed the restriction for array-to-pointer conversion; no longer does it have to refer to an object of static storage duration to abide by the rules for constant-expression
@FilipRoséen-refp Why do you keep talking about array-to-pointer conversion? I just told you why that doesn't violate the rules for a constant-expression (which in turn means no ODR use takes place)
An lvalue or rvalue of type "array of N T" or "array of unknown bound of T" can be converted to a prvalue of type "pointer to T". The result is a pointer to the first element of the array.
@MartinJames No, the problem is that std::function is being used properly, i.e., for storage, and I cannot set a breakpoint for "whenever that particular storage gets called".
@FilipRoséen-refp Don't forget to post links etc. Comments on the Q&A wouldn't hurt, either. I would then integrate them into my answer so people know how well this conclusion works in practice.
I'm not using MSVC but why not set breakpoints where you actually want to step, and when it jumps to the library make it keep going until it hits a breakpoint
I don't wanna skip the call entirely. I want to step into it, but without having to make stops at every single pass through call in the stdlib before it reaches my code again deep down.
@RedShift You need to write function bool operator ==( const Card &a, const Card &b ); You may ask me a question in my forum at www.cpp.forum24.ru in the section "C/C++ for beginners" It is the first section of the forum. Though its is Russian site you may ask questions in English. — Vlad from MoscowApr 28 at 19:38