@crasic That isn't true. I routinely consume large quantities of DI and 18 mega ohm water with no adverse effects. I suspect its a good way to get salt out of your system.
Also no off taste, all of you fucking normies are drinking water with off tastes
Dude, once you've gone pure there is no way you're going back
@Mikhail If you want to "get salt out of your system" I would recommend a juice cleanse.
It is true that DI water is not toxic, However substituting DI water for normal water is detrimental to your health, occasional consumption is not toxic, but drinking DI water as a "pure" water substitute is asking for certain rare anemias
luckily however, our food supply is heavily fortified and as such generally speaking you will not feel any ill effects as long as you eat a varied diet that supplies the trace elements needed for life.
I listened to the cppcast about regular void and they were discussing how sizeof(void)==1 and sizeof(void)==0 are both problematic for various reasons. I wonder what they decided.
My bet is on "sizeof(void)==1 but with something similar to empty base class optimization so that struct S{ int i; void v}; sizeof(S)==sizeof(int);".
@Morwenn What about int and const unsigned int &? Temporary or reference to existing object?
Just wrote this mail on "fun" AVX issues, might be of general interest https://gist.github.com/rygorous/32bc3ea8301dba09358fd2c64e02d774 TL;DR: VEX encoding and new 128b instrs are reasonably easy to deploy (other than build issues), 256b+ vector stuff is _hard_ to ship for libs due to power management.
But the point of every object being at least size 1 is that every non-polymorphic object has a unique address. S sa[2]; would already have &sa[0].v == &sa[1].i; which is not supposed to happen.
I guess you would need to change it to [[maybe_no_unique_address]] so that you can't rely on the unique address but also cannot rely on no unique address.
@TelKitty That problem has been solved. Just use a password manager. 1 password to remember, unlimited username/password combinations used and stored.
> Indicates that this data member need not have an address distinct from all other non-static data members of its class. This means that if the member has an empty type (e.g. stateless Allocator), the compiler may optimise it to occupy no space, just like if it were an empty base.
may, so no guarantee when the attribute isn't ignored
What if someone does std::cout << ((void*)&sa[0].v == (void*)&sa[1].i);? Without [[no_unique_address]] it's guaranteed to print 0, with it it may print 1 or 0, so you have an attribute that changes the program behavior.
Or would you say the comparison is invalid, so the rule doesn't apply?
that being said, you can construct an example that is similar in spirit with [[no_unique_address]] whatever a_data_member, a_data_member_also;; in which case the answer is 'the two data members are of the same type so don’t worry about it' (aka it’s the same situation as with empty base objects today)
@nwp Basically attributes are not about not changing the semantics of the program, they are about "if your program is guaranteed to work with the attribute, it's also guaranteed to work when the attribute is ignored"
look at contracts: they are attributes and do change the semantics of the program since the program might terminate if the contract isn't ignored
while it might still run if the attribute is ignored
that's pretty much how all attributes work: if present they make your program work in fewer scenarios while allowing more optimizations
you could say that [[deprecated]] changes the behaviour of a program if you log the compiler errors to a file and the compiled program reads said file and expects it not to contain [[deprecated]] logs x)
@TelKitty If someone can break into your system and log the password manager password you are screwed anyway. Mildly inconveniencing the hacker will not save you, so the damage that a password manager can do is negligible.
@Morwenn Meh, the standard does not make any guarantees about what a compiler can print, so you can't rely on that either.
@TelKitty You can just get the application name of where the user types text into, so that part is pretty easy. The difficulty is in getting people to install your keylogger.