Good C++ programmers rarely, if ever, use
void*
Preprocessor for constants/inline functions, and to a lesser
extent, xmacros
Multi-dimensional pointers
Protected/private
inheritance
Integral pointer conversions
Unions
Function pointers
Member function pointers
Off the top of my head, I'...
upvote me so I can look more awesome because I bash other inferior languages!
std::count_if(items.begin(), items.end(), boost::bind(&Item::value, _1) == 0); doesn't work with std::bind and I think it's a pity because it's a less ugly syntax than the lambda one.
Did you write yours because it was going to be the week-end and you needed to retrieve what you were thinking of next time you'd get back to your project? My todo list is a rough braindump.
We need a sister-concept to perfect-forwarding, something with a name like 'perfect-storing'. I'm still not sure what's the preferred way to handle this.
@LucDanton Heh, never realized that. Tried it a few times in the past and for some reason didn't get it to work back then. I wanted to ask for a long time but never came around to doing it..
@Xeo With the exception of functions that run for a long time. int main() { run(std::string("hello")); }, you can use the rvalue-reference for the entire duration of the program now :D
@LucDanton Hm. Since you can't differentiate between xvalue and prvalue when you get it, I don't think you can map to the original value category all the times
so I'd probably just return an xvalue for "stored temporaries"
Actually, that doesn't matter.
Just return an xvalue, you can't find out a difference to a prvalue anyways :D
Now, I'm kinda lost to what you actually want to achieve. My brain's been a bit fried today, sorry. You want void f(T&){}; stores_and_passed_t_to_f(f, std::move(t)); to work, did I get that right?
std::bind really is ugly by the way. For instance the norm is that an interface dealing with smart pointers will accept T or T&&, and almost never T&. So putting smart pointers inside the std::bind wrappers is inconvenient (unless dealing with pointers to members because then they're dereferenced).
@LucDanton Actually, I got convinced that shared_ptr should be passed by ref most of the time. I sometime need to amend my answer I gave on that Q on SO...
@Xeo It's fine that it doesn't work (that's type safety in action), but it'd be nice if there was a way to express the intent 'take ownership, restore as lvalue'.
Like std::bind(foo, std::ref(t)) is a convention to express "don't take ownership, restore as lvalue ref".
@LucDanton Well, every long term storages that uses pefect forwarding will need to store temporaries into actual value types at one point. "perfect storage" would now be if the retrieval of such a temporary would again produce an xvalue. Normal storage just gives you an lvalue. I don't see how that would work any other way, but maybe I'm overlooking something.
bind(f, std::move(t)). But this is bugging me. We seem to talk at cross purposes (is that the right wording?). Anyways, I get the feeling we don't really talk about the same thing.
I'm sorry but I mixed the discussion of "what I have so far" (i.e. perfect forwarding + perfect storing) with "why what we have right now isn't good enough" (i.e. unholy mix of C++03 decay-storing + C++11 perfect-forwarding like std::bind).
I shouldn't have used bind as a placeholder name.
Perfect forwarding + perfect (re)storing has one 'blind' spot in that it's not possible to express "Store that value and restore it as an lvalue". So I decided to add a val feature to help with that just like ref was added to C++03 decay-storing to allow for shallow-copy semantics.
Is that a good summary?
Heh, I'm going to check if val works with std::async & others.
Perfect-forwarding is as follows: T&& to perfectly forward (but beware dangling rvalue refs), T to 'safely' perfectly-forward (but beware superfluous move-construction that ends up as a costly copy) or to perfectly store, T& to perfectly have an lvalue reference, std::decay<T> to decay store C++03 style (but beware use of std::ref to enable shallow copy semantics).
@Xeo Yes, I'm convinced that it's superior to C++03-style. std::bind is somewhat painful with move-only types.
I'm reading a c++ book and I came across the new and delete operators and it said to always delete your "new" memory and it said if you don't it would clutter overtime. Then later in the book it was using new but it didn't delete. Does it auto delete?
@MooingDuck yeah, I always forgotten about GCC , that it's open source, becuase I'm using Windows and C++ compiler, which is closed, so always forget about GNU products