@sehe While I personally don't think there are high odds of the whole thing happening, even if it fails after a few weeks, it will be worth for those few weeks of writing possibly fun stuff :)
@sbi :) I'll leave the rest for you in case it needs to be done. Oh, you'll have to have access to the Cryogen room should you want to move messages here
@Abyx I have replace the paragraph about asking questions on the newbie hints page by a reference to the @Cat's new page about asking question. (I also fiddled a bit with the latter, @Cat. I hope you agree with my changes.) I don't need that separate link to what's linked to from the newbie hints' very first paragraph.
@Abyx I carry a laptop around that comes with a power adapter the size of a netbook. I got my employer to buy two power adapters, though; one for home and one for work.
@sbi a static function can absolutely evaluate dynamically at runtime. The problem is that, although there is clearly only one Lounge<C++>, there is no reason to implement it in singleton fashion :)
@Drise Got curious and did a quick check. The highest rep using claiming to be from China has a rep of 58; total activity: 1 question, 3 answers. Pretty sad for the most populous country on earth.
@Drise What do you mean 'nothing is there' (where)? What do you mean: not type safe? Also, the docs to fopen clearly do not allow it to segfault (unless the filename arg is invalid, in which case... )
That's incomparable. I get what you mean, but fopen is perfectly fine in legacy code. Heck, it's even sometimes what I'd use (or creat/open) when I need to do blockwise IO in a highly portable/efficient manner
I never really realized how our OS's limited harddrive size. I'd always assumed that for a 64bit OS, the max harddrive size would be 256TB-16EB, but It appears that Linux/ext3 tops out at 32TB. Windows XP tops out at 256TB.
I know this question is rather long, but I was not sure how to explain my problem in a shorter way. The question itself is about class hierarchy design and, especially, how to port an existing hierarchy based on pointers to one using smart pointers. If anyone can come up with some way to simplify...
I don't see why C++ prevents a class from inheriting from two+ of the same type, when one or more were template parameters. I can't think of any reason for the limitation other than consistency with non-template classes, and that doesn't seem good enough for me.
It's an hypothetical trait that returns either the first or the second template parameter based on some secret sauce.
// for example
template <typename T, typename> struct pick_one { using type = T; };
template <typename U> struct pick_one<void, U> { using type = U; };
//used for inheriting from same type twice
template<class sub_expr>
class inherit_again : public sub_expr {
public:
inherit_again(sub_expr rhs) : sub_expr(std::move(rhs)) {}
};
//This is my workaround