@MrAnubis: Yeah, lot of people say lot of things, that maybe true or maynot be true, in this case it just might be true, but it still doesn't disprove that he is a puppy
@MrAnubis in modern society we don't think in terms of "beating" someone at knowledge etc. however, it was not unusual a few hundred years ago. for example, the italian guy who everbody thinks solved 3rd degree equations, cardano, wasn't really the first. the story was complicated. but he had to show off in a knowledge contest against rival. it was usual then.
Hi could anyone help me with smart/auto pointers I read an article about them a while ago but forgot again :( quick link to an article explaining them?
unique_ptr/scoped_ptr is exclusive ownership. Object gets deleted when the smart pointer is destroyed, unless it's been moved/released. shared_ptr is shared ownership. It maintains a reference count and deletes the object when all smart pointers have been destroyed. weak_ptr is non-owning shared_ptr, i.e. it doesn't increment reference count until it's locked.
Anyway, it's simple. unique_ptr has exclusive ownership (it owns a unique object, one that no one else has any kind of ownership over). shared_ptr has shared ownership (lots of pointers point to it, and they all own it. scoped_ptralso has exclusive ownership, but it is limited to the scope it was declared in (you can't copy or move it, so wherever it was declared, that' where it stays, and when you leave that scope, it deletes whatever it points to)
Why did the C master Dennis Ritchie introduce pointers in c?
Because pointers are a very powerful mechanism that can be used in many ways.
And why did the other programming languages like vb.net or java or c# eliminate them?
Because pointers are a very dangerous mechanism that can be m...
deprecated means "don't use this, we may remove it from the standard at some point in the future". Obsolete means "don't use this, there's a superior alternative now". For auto_ptr, both statements are true, so it's both obsolete and deprecated
@FredOverflow, phh well something like outputs of elements of 2dim array int nit[2][2]={....} for(int i=0; i<2; i++) for(int j=0; j<2; j++) cout << niz[i][j];
C++ inherited arrays from C where they are used virtually everywhere. C++ provides abstractions that are easier to use and less error-prone (std::vector<T> since C++98 and std::array<T, n> since C++0x), so the need for arrays does not arise quite as often as it does in C. However, whe...
Why is there no std::make_unique function template in the standard C++0x library? I find
std::unique_ptr<SomeUserDefinedType> p = new SomeUserDefinedType(1, 2, 3);
a bit verbose. Wouldn't the following be much nicer?
auto p = std::make_unique<SomeUserDefinedType>(1, 2, 3);
This ...
How come rvalue references weren't introduced into the language sooner? Wasn't it obvious from the start that C++ loved to copy objects a little too much?
@FredOverflow honestly, I'm not sure. In ye olde OOP/C-with-classes days, it might not have been as obvious
if everything were pointers to heap-allocated objects, copying/swapping was cheap
apart from that, it's a fairly big change to the language, and C++98 was late and overloaded with new features and didn't really have room for something like that
@LucDanton Well, I have lots of events that all have a timestamp and an event description, but I want to keep separate types of events in separate containers. Nonetheless, for the report I want them all in one order.
@LucDanton Hm, I guess I could create a big temporary map when I need to report the results. None of them are huge, so that wouldn't be a problem... Oh well. I just thought it'd be cool to have some sort of databasy iterator adapters :-)
Actually, my containers might not have the same mapped type, so a more general solution would be cool, where the result is a tuple of iterators, which can be "null" (i.e. m2.end()) if they're not used.
they're nearly always expressed in pairs as ranges- but what if you need something else to express a range? Like, say, a pair of iterators and something else?
'So and so does X -- but what if I need X and also Y? Then so and so doesn't fulfill what I want' I'm not saying this is what you're trying to convey but I'm having a hard time understand it.