If either of you are bored, do you have an opinion why in this test the manual copy+swap and move+swap is far more inefficient than the compiler-generated one? (-DROLLOWN)
Yeah, I just want to understand how to do it right, in case I need to... or is it always best to never write any operators at all and just use the correct smart container members?
plus why allow swap(T&&, T&) (not using perfect forwarding, assume T&& is an rvalue ref) when the client code could just as well use rhs = std::move(lhs);? What does swap(std::move(lhs), rhs); buy exactly?
By the way, in the memoizer, how can I use the indices helper to make the tuple hasher more compact? I will have to call hash_combine for every element of the tuple, so I don't see how I can avoid a recursive definition of the hasher.
I can't just write hash(args...) (without making the hash function itself recursive).
I see. Yeah, that could have been done, but since I just lifted the hash_combine from Boost I didn't want to fiddle with it, hoping that it'd be in the standard one day.
I suggested policy-based design for a mutex class to a colleage of mine. He responded that he wanted to avoid the overhead. I made the claim that there is no overhead if the base classes have no virtual methods. But just wanted to be sure..
If you compile using clang, it helpfully reports that (2) and (3) are unusable. The warning for (3), which you expect to be selected, is as follows:
warning: class template partial specialization contains a template parameter that can not be deduced; this partial specialization will never
...
@JohannesSchaublitb I get that you're saying that not all pack expansions are required to occur as the last parameter, but are you also saying that what the OP is doing is allowed?
if a=3 and b=2 what does this imply
printf(&a["Ya!Hello! how is this? %s\n"], &b["junk/super"]);
arr[4] means *(arr+4) so i need to know what does a expression like "hi there" imply?
I know some languages that do this and what displeases me is that it's never explained what I should do if e.g. I have a loop in the lambda and I want to break from it.
IIRC some languages have two kinds of lambda to solve this problem, where the ones that can break from an enclosing loop aren't first class and can't do all the stuff of the regular kind of lambdas.
I don't know what the other languages use; some kind of keyword(s) expression such as return continue; would work I guess.
- fixed Defect from DR7290
- fixed Defect from DR4211
- implementations are not required to emit a diagnostic anymore regarding issue #3398
- the language does not suck anymore
That's odd... I wrote (failed_at = Names, table[Names]) (where table[Names] can throw) and GCC pointed out to me that the results were unspecified, which I'm inclined to believe.
So I changed it to table[failed_at = Names] and I still get the warning.
Since this is a user-defined operator[] I would have thought the assignment would be sequenced before entering the function, and thus the potential throw. So false positive or not?
you're absolutely right that entering a user-defined function introduces a sequence point and that the assignment is well defined to execute before the operator[]
The pack expansion is happening inside a braced-list-init.
When the type that is being constructed has a std::initializer_list constructor, GCC doesn't complain.
If on the other hand it doesn't (i.e. in my code it's an std::tuple so variadic constructor), it gets flagged.
And now to double-check the Standard.
Okay so my guess is that's it's not a false positive, but that GCC doesn't implement the braced-list-init correctly. They're required to evaluate the subexpressions in order (which I was relying on in the first place), but possibly GCC only honor it when it comes to constructing an std::initializer_list, and not when making a constructor call.
I'm going to 'manually' throw on the line before that construction and not check in the braced init list. That way I can already use the exception catching code.
Also previous bug report has yet to be assessed. I don't think this is not already known, either.