@all In case you're still around, return sizeof(*this) should do that (though the general idea doesn't lead to immediate enthusiasm). In particular, if you're using inheritance, this will return the size of the static type of the pointer you're using, not the dynamic type (the size for the object that's actually pointing at).
@JerryCoffin sizeof(*this) returns the size of the type for the class it's been defined for, which is not necessarily the size of the static type of the pointer the member function has been called for.
For example, if you call through a Base&, the member function is implemented in Derived1 (derived from Base), but the actual object is of DerivedDerived (derived from Derived), then what you get is Derived, not DerivedDerived (the dynamic type) nor Base (the static type).
When using Polymorphism in C++, what are the important facts to know about it.
Like, for example, when casting from derived to base, what should one be aware of?
When is an upcast possible, and when not?
When do you need a 'virtual' destructor and when not?
What do you need to be aware of wh...
Have you had a course in OOP/polymorphism? These things can be helpful to learn/discuss from a language agnostic point of view, then mapped to a C++ concept.
That is, before we mention C++, what do you know in general about OOP?
@sbi Yeah -- I didn't state what I intended to clearly at all. The point is that to get the right size, you'd have to define the member function as virtual in the base class and override it in every derived class to get meaningful results.
@TonyTheTiger: I always liked the terms "is-a" and "has-a"...like the old ideas of circle "is-a" shape and "has-a" radius. Note that not all shapes have-a radius, but if something is-a shape it must have a bounding rectangle (for instance).
You only derive class FOO from BAR when FOO is-a BAR. If the set of things you can do to a FOO is not a superset of what you can also do to a BAR then it simply is not an "is-a" relationship and inheritance is not appropriate.
@HostileFork The "is-a" terminology can be deceiving though. The standard example is that a circle is an ellipses, but a circle class definitely should not derive from ellipse (or vice versa). Likewise with square/rectangle, etc.
@HostileFork At least IMO, they're mistaken. OOP isn't broken, and interfaces raise as many questions as answers. The problem is that OOP doesn't fit most people's though processes nearly as well as most people like to think or preach.
I'm a domain-specific language person, so I believe in new engines of language design that let one use common subsystems (like arithmetic) while adapting the language to the problems it intends to solve in ways that transcend the generalized constructs. Needs new tech.
That doesn't mean it can't work, just that getting it to work requires you to be very careful about how you think about things. Unfortunately, the same is/will be true of every other competitor as well, for the simple reason that people tend to think in rather "fuzzy" terms, but without a lot of work to make them otherwise, computers don't work that way at all.
@LucDanton They're contentious only to the degree that Java users (for one example) treat them as being a (superior) replacement for multiple inheritance. There's nothing terribly wrong with, but they're not nearly the great new thing some fans believe either.
@TonyTheTiger: Not a bad question to ask, just not the Q&A fit of the site. I had to rewrite an electronics question after it got closed before they'd answer it because it seemed too "open"
@TonyTheTiger That's happening a lot more often lately. I don't like it, but it's hard to avoid. When there's too much volume, people start looking for ways to keep it more manageable. On Usenet, people just got anal about topicality. Here, there are other reasons/excuses, but when you get down to it, the reasons and effects are mostly similar.
When using Polymorphism in C++, what are the important facts to know about it.
Like, for example, when casting from derived to base, what should one be aware of?
When is an upcast possible, and when not?
When do you need a 'virtual' destructor and when not?
What do you need to be aware of wh...
@JerryCoffin It's annoying if you ask me. It's getting too much police and too many arbitrary rules thrown in. It is supposed to be a "community driven" site, seems more like a meta police driven site these days. bah
@TonyTheTiger Like I said, I don't like it much either, but I don't know of much way to avoid it. Part of it is a semi-legitimate response to excessive volume -- but there's also quite a bit that's basically busy-bodies making up and enforcing rules. It's hard to avoid them and even harder to get rid of them...
@FredOverflow Correct. I might be thinking of a question related to make_shared; perhaps a reference to a tentative make_unique was made. I also remember discussions in chat.
well, you can't get rid of the previous waste of space, but if you click on the bar to the left of the post when mousing over it, "delete" should come up
Yeah, function pointers will only go so far. Allowing any kind of callbacks and storing std::function (or the Boost version) is that much more powerful.
I don't think I really consider 'respect' when I write code.
@FredOverflow Hah, I have a different point of view: my own implementation of make_unique allows me to pass custom deleters and I consider it a defect that make_shared doesn't support that feature!
@LucDanton Using anything else besides delete would be wrong for make_unique. Just look at the code, it uses new T. Oh wait, T could be an array type...
@IntermediateHacker They're not really hated, just excessively restrictive. Most of us use functors a lot, so something that can't deal with them is kind of useless.
I think the idea is that sooner or later one callback will need some state to work properly. Another take is that I simply learned to program with closures before I learned to program with function pointers.
@IntermediateHacker Can't be used to point to functors and/or member functions. Pointers to members aren't that big of a loss, but being able to deal with functors is (for me, at least) pretty important.
@FredOverflow I forgot to mention that my implementation also accepts 'raw' pointers. So the idea is that make_shared is a degenerate, feature-deficient piece of code ;)
@DeadMG Should I really have used a template class instead of a normal class for implementing the Nex::Event? I am beginning to have second thoughts...
@DeadMG Anyway, should I have used a template class or a normal class for implementing the Event? Wasn't it better to create A base class called Widget and have used a pointer of that for 'Register()'?
WHat are the advantages of a "Header Only" implementation [boost,win32++] compared with those of a Static/Dynamic LIbrary implementation [WxWidgets,MFC] ?
And yes there is a problem but that's one that appears when doing something like int const N = 42; void f(int const& i); template<typename T> void oops(T) { f(N); }
@IntermediateHacker 1) Templates have to go in headers, 2) You only have to set up paths and such in one place instead of two (one for compiler, another for linker).
@IntermediateHacker I'm not talking about it simply being more acceptable for programs to be bigger. In this case, it's linkers getting smarter, so code that started out duplicated during compilation gets merged during linking. Early in the history of C++ that didn't happen -- and under the wrong circumstances, it still might not.
@IntermediateHacker Hard to say for sure. Clearly the templates need to go in headers. For the rest, it depends on the size of the classes as much as the number. 9 tiny classes might as well just stay in the headers. 9 huge ones could belong in a library. I'd generally time compilation both ways, and see how much difference it made.
@FredOverflow Headers are simpler in general. The main disadvantage is having to re-compile them every time you use them. For some commercial development, keeping the source code secret is a big thing too (or charging extra for it...)
@FredOverflow They help, but not necessarily as much as you'd like. They can create huge files that (at least with some compilers) get re-created if you look at the compiler wrong. Can still be really useful though.
Sure, it's possible. Here are the ingredients. Let's start with my two favorite meta-functions:
template<unsigned N>
struct constant
{
enum { value = N };
};
template<typename T>
struct return_
{
typedef T type;
};
Then, a meta-function that counts the bits required to sto...
I finally converted to spaceless template<blah> style ;)
@TonyTheTiger Your question is pretty much like my operator overloading FAQ ("What is there to know about topic X?"), and that is indeed stretching SO's Q&A style to its limits and then a bit further. The main difference to mine was that mine was posted with all the facts about its topic in place, neatly organized and sorted, while yours would start to assemble a wild mixture of answers an would require a lot of effort to achieve that level of organization.
So I can, to some extend, understand that yours was closed, even though I'd like to have more of those at SO.
@FredOverflow Except that, when you declare an object, * is a type modifier, not an operator.
@FredOverflow Without looking close, what I'm missing in your answer immediately is CHAR_BITS. Wouldn't that be a necessary ingredient for counting bytes of a number?
@FredOverflow My point is that dereferencing could just as well be a postfix operator, xor the declarator be as @Tony asked. Yes, they inventors of C thought the way it is would be less confusing, but (it's not like it makes a lot of difference and) they could have just disregarded that thought.