@OmeidHerat And what would be wrong with someone being gay?? I'm not homophobic at all. (And in case you are: I sired more kids than many here had girlfriends. So stop looking that way at my avatar. It's not going to rape you.)
@OmeidHerat I have a hard time parsing that sentence (you might want to throw in a bit of punctuation), and the one interpretation I came up with doesn't fit the facts. So would you care to elaborate?
@OmeidHerat I think that, by now, you have managed to make an uncongenial impression on just about everyone here. Can we now show you the door, please?
@RMartinhoFernandes There's 1) a missing std:: before every map and 2) one before every string. I thought error #3 was that maps can't be used as map keys, but it seems @Tony has shown I was wrong.
@TonyTheTiger Remember: All huge software products started out as such snippets, and, underneath, they still are such snippets. And see what using namespace std might do: stackoverflow.com/questions/2712076/how-to-use-iterator-in-c/…. It's just not worth it, really.
@TonyTheTiger Unfortunately typedef is not as good as it could be (despite it's name it doesn't define new types, it only creates new names for existing ones), but it's still pretty handy to use.
I have a C++ application which I want to release to a bunch of testers (<10.) I need some simple way to limit those testers from distributing it further. There's no need for super-duper hack-proof protection here, but it should be impossible for normal users to circumvent the protection. I can...
@RMartinhoFernandes ...or can you? :-) No, in principle you're right of course, but in the context of whether T[N][M] is contiguous, how else would one describe contiguousness within the language?
The zero-array part is moot, because an array of arrays of zero elements still has zero inner elements, so the question of how to find any one of them is vacuous.
int main()
{
std::array<std::array<char, 3>, 3> a[10];
std::cout << sizeof a << std::endl;
}
prints 90 here
@RMartinhoFernandes The standard essentially says that padding is necessary to align primitive types on their storage boundaries. If you only deal with chars, there is nothing to align.
Consider the following code:
int a[25][80];
a[0][1234] = 56;
int* p = &a[0][0];
p[1234] = 56;
Does the second line invoke undefined behavior? How about the fourth line?
@FredOverflow Excellent. Can we use any of this for std::array?
@Alf: How can I get rid off your downvote? Shall I rephrase the first sentence into "The stack is an implementation detail that's not relevant to the situation"?
@KerrekSB Well it is very relevant, since it is an allocation/deallocation policy that beats dynamic allocation by many orders of magnitude (in speed).
@KerrekSB And it is also relevant because in practice it imposes limits on object sizes. Like, very large arrays not a good idea.
but mainly i downvoted because the statement was incorrect
i would probably not downvote merely because of a misleading opinion
so if you just rephrased to something not incorrect i'd remove downvote, but perhaps add comment ;-)
i would have to search old discussions to find the silly "stackless" machines
they didn't really do without a conventional machine stack
but they were optimized for single process execution where the process only saw a kind of "window" in the registers
it was a very stupid thing to do
because each context switch then required copying a lot of register data
But even the question "is this array on the stack" is misguided - it really all depends! It could be a global, or it could be part of a dynamically allocated object.
So the first thing to say is that a "stack" isn't a good way to think about this. What the OP is really after is whether the array class performs any allocations of its own. Which it doesn't.
OK. Reworded that.
Also encouraged the OP to ask about the contiguousness in a separate question
Given any type A and the following struct:
struct S
{
A a;
};
Are there any cases where sizeof(S) is greater than sizeof(A)?
For example, can sizeof(std::array<T, n>) be greater than sizeof(T[n])?
@FredOverflow is this a "can the size legally be different according to the standard", or "would it ever actually happen under any compiler on any hardware whatsoever"?
isn't the compiler in general allowed to insert padding when it likes (not counting the beginning of a struct and one or two other cases where it's not allowed)?
@wilx I don't know about the .net VM, but if it's anything like the Java VM, it actually uses two stacks. One for activation records (parameters, local variables, return addresses), the other for evaluation and intermediate results.
@CatPlusPlus No, because until then, they thought "stack" and "heap" would be mutually exclusive. They simply don't understand the difference between Stack objects and "the stack" used for activation records.