Some people go "ooh, everything is so simple and easy to do in C#, that's awesome", and others go "WHERE ARE MY POINTERS? WHAT KIND OF LANGUAGE DOESN'T LET ME CAST BETWEEN ARBITRARY TYPES"
@MartinhoFernandes Second that. Speaking for myself, I found joy in working with C#, although the very strict type-safety sometimes gets on my nerves, I'm very content with it generally.
@DeadMG Most of that has little (if anything) to do with type safety (strict or otherwise). At the same time, the two tend to go together a bit -- a language designer who's decided to protect you from yourself, is likely to do it in a number of different ways, some related to types, others not.
@MartinhoFernandes C++ allows me to do it, though. I'm not naturally used to explicitly type-cast everything, and that's why it irritates me sometimes.
@JerryCoffin: That's what I mean. I don't care about the occassional enforced downcast, I do care about not being able to do what I want to do with regards to, well, a hell of a lot of other things
I will, however, complain when I need to use a language and the designers decided that they could do a better job without ever seeing my problem or code or use case
@DeadMG Hmm...I rather though the fact that it's enjoyable was a really good reason to use it. Most jobs that are really interesting also gravitate toward C++.
@DeadMG If I put the C# interface in the CLI code, it won't compile. If I create a C# project and reference the C# in the CLI project, it can't find the interface.
In layman's terms, what's the difference between trivial types, standard layout types and PODs?
Specifically, I want to determine whether new T is different from new T() for any template parameter T. Which of the type traits is_trivial, is_standard_layout and is_pod should I choose?
(As a side ...
No, new int{} will yield 0. I only want to do extra initialization stuff when it is necessary for type T. And no, I can't just say new int, the real program is a little more complicated :)
@jalf I'm rather like "WHERE ARE MY TEMPLATES? WHAT KIND OF LANGUAGE SAYS IT ALLOWS GENERIC PROGRAMMING WITH THAT KIND OF JOKE OF A TEMPLATE IMITATION?!"
@jweyrich Hola! (I woke my laptop from suspend-to-disk while we had dinner, but I first had to get the kids some food, and then had to bully them to bed before I could have a look at here.)
ah, gotcha. C# doesn't have statically checked duck typing, you'd have to constrain that definition to an interface or base class, something like void write(T t) where T : IWriteable
@Xaade: it comes from the phrase "if it walks like a duck, quacks like a duck, then its a duck". Its the idea that you should be able to call methods on an object without constraining it to a common type
In computer programming with object-oriented programming languages, duck typing is a style of dynamic typing in which an object's current set of methods and properties determines the valid semantics, rather than its inheritance from a particular class or implementation of a specific interface. The name of the concept refers to the duck test, attributed to James Whitcomb Riley (see History below), which may be phrased as follows:
:"When I see a bird that walks like a duck and swims like a duck and quacks like a duck, I call that bird a duck."
In duck typing, one is concerned with just tho...
I think one major deficit in C#'s type system is the lack of a common base class for numeric types. Its not possible to do something like this: T Add(T a, T b) where T : INumeric and invoke with Add<int>(5, 10) and Add<float>(5.0, 10.0)
ok, another stupid question, please correct me if I'm wrong: how are C++ generics implemented? Does the compiler create two methods specialized for each type?
I know in OCaml, it supports generic functions with hardly any effort at all and compiles to native code. However, type safety is only checked at compile type, the generic types are erased at compilation time. It doesn't need to generate any new methods because all the reference types are accessed through a pointer, and all the pointers have the same size
@Juliet i don't go to stuff like that, but in my town we have the biggest one in the world... it's quite scary the amount of ppl that attend, 4million or so it was estimated
@Juliet Nah -- my openly-gay friend says he won't go to them until they eliminate the discrimination by having a "straight pride" parade (seriously). I figure if the one openly-gay guy I know very well won't go, there's not much point in my showing up...
I'm trying to bridge native C++ to C# using C++/CLI.
I've created a bridge class that is to be called from native code, that basically reroutes calls through to the C# object. To do this, I've created a C# interface to derive C# objects from and I have a class factory that's producing C# objects ...
Is it really possible that operator new[] followed by placement-new at that address fails because of alignment? I somehow find that hard to believe.
> The allocation function attempts to allocate the requested amount of storage. [...] The pointer returned shall be suitably aligned so that it can be converted to a pointer of any complete object type with a fundamental alignment requirement
I don't know, I'm quite timid regarding alignment issues. Again, I know that new char[n*sizeof(T)] has special behaviour but even then std::aligned_storage is even more explicit in what it does.
@Xeo Wow, I never looked at this. Mine is 225. I can even click on it and get to a page that lists what I have flagged, but I can't seem to find out whether a specific item on the list has increased or decreased my flag weight.
[ Note: The deallocation function is called regardless of whether the destructor for the object or some element of the array throws an exception. — end note ]
It is possible to write a function, which, when compiled with a C compiler will return 0, and when compiled with a C++ compiler, will return 1 (the trivial sulution with
#ifdef __cplusplus is not interesting).
For example:
int isCPP()
{
return sizeof(char) == sizeof 'c';
}
Of course, th...
@FredOverflow Before we had the FAQ, remembering well-answered questions was the main purpose for which I used favorites. I haven't looked at these for a long time now, and could probably weed out 70% of them.
@Xaade To the contrary. Since they had just started "writing" (by drawing pictures into clay, actually) back then, it's one of the most talkative archaeological sites of that time. IIRC, at least for the later periods they wrote down most of their trade and other economic facts, so we know quite a lot of details about their everyday life.
@FredOverflow I think you missed that joke. (It's on par with jokes like "What does toilet paper and the ENterprise have in common?")
@FredOverflow No, but the English astronomers, sick of these jokes, attempted to change its pronunciation so that the first "u" is stressed, and the word is disambiguated.
Um, got lost on Wikipedia reading about Sumerian (pre)history. I do need to go to bed, though. <sigh/>
Suppose I am a user of a Certain Template Library (CTL) which defines a template, named, say, Hector
template <class T>
class Hector {...};
And in its documentation it gives many guarantees about Hector template behavior.
But then it also defines a specialization for a certain type Cool...