Although that's the kind of unstability the snapshot had a few weeks ago. Change a (long-ish) header by adding or removing some lines, then suddenly some TUs arbitrarily crash at compilation.
@LucDanton Wiki says: Located at the crossroads of South Asia, Middle East and Central Asia, Pakistan has an important geopolitical position in the world.
@rubenvb Ah well, not only that but I wanted to partition regions across Middle East and Asia. But apparently there's overlap between the two, it's not just a matter of deciding where to put the line.
the close reason says "We expect answers to generally involve facts, references, or specific expertise; this question will likely solicit opinion, debate, arguments, polling, or extended discussion."
if that is what the owners of stackoverflow.com expect, then surely the question is offtopic
since whether a book is good or not is opinion and open to debate
Note to self: never answer any questions where term "STL" comes up, otherwise pedants will start bickering about SGI STL, even though nobody cares about it.
@CatPlusPlus In this case your criticism of others criticizing you is a bit unfair, though. The question explicit asked for the reason why something is the way it is. That's a question on history, and the commenters were simply pointing out that the history of the STL began before the standardization.
@CatPlusPlus Maybe he did, maybe he didn't. Maybe he didn't even know such a thing existed. That doesn't matter, though. He asked why things are the way they are, and your answer fails, because things had been that way before the STL was incorporated into the standard (or the standardization consciously skipped over hash maps or whatever).
@JohannesSchaublitb Yeah, and this guy asked exactly why it began the way it did. Why was map not designed as a hash map, and the standard later added a std::ordered_map? Not that I knew, but @Cat's answer fails to address the question.
hows industry for programming? My professor told me that software engineers mostly sit in meetings and code once a week. I thought at first it was almost daily.
reserve changes the internal size of the container (so that capacity() is now larger) but the size of the array doesn't grow any (size() remains the same as before the call). So, to directly answer your question, yes, it makes the capacity of the vector at least n where n is the parameter you gav...
> "The closure type for a lambda-expression with no lambda-capture has a public non-virtual non-explicit const conversion function to pointer to function having the same parameter and return types as the closure type’s function call operator."
and the spec says that when any path even if not taken from unspecified behavior would result in undefined behavior, then the whole program's behavior is undefined for the program's input
@LucDanton then by pointer arithmetic and the fact that adding an element can't trigger a reallocation and the fact that a vector's storage must be contiguous, it seems that you can do what I said just fine
@Seth, that's kinda the point with UB. Just because you can do something defined UB doesn't mean you should. You can perfectly fine use the dreaded "union horrific cast" on most platforms, but that doesn't mean it won't blow up anywhere.
Also, IIRC, a conforming implementation might actually not reserve anything and just set an internal flag that it should reserve if you put anything else in
> then by pointer arithmetic and the fact that adding an element can't trigger a reallocation and the fact that a vector's storage must be contiguous, it seems that you can do what I said just fine
so you are on a street that just has been completed but there are still parts of it reserved for the military. you think you can take a shortcut to home and drive on the reserved military streets. until they say "ohh the enemy" and shoot you down
@LucDanton how is that not reading the standard? It's taking parts from the standard and putting them together to make sense of something that is not mentioned but could be covered by a combo of other rules
> The elements of a vector are stored contiguously, meaning that if v is a vector<T, Allocator> where T is some type other than bool, then it obeys the identity &v[n] == &v[0] + n for all 0 <= n < v.size().
It would be reasoning if you based it on standard quotes: if you looked at what the standard said, and from that, tried to infer the behavior. You chose to bypass the standard entirely, and guess at how vector is defined, and that is speculation ;)
well, or perhaps if you spelled out your assumptions clearly: assuming vector is defined in to provide this and that guarantee, then... That would work for me too ;)
It's really counterintuitive tbh. Some things you get the feeling "it can't go wrong", but since the C++ Standard doesn't explicitly make it that way then a implementation is allowed to make it go wrong just to spite you.
But if we go by the definition of "flight" and "bird" that everone else uses, then I'm wrong. If we go by the definition of "bypass" that everyone else uses, then you are wrong
you did not reference the standard. That means you skipped it, bypassed it, overlooked it, ignored it
By the way when I was speculating that data might be used for bypassing the contiguity requirement that's because I didn't know the specification of data: I thought I could use it to get a hold of, say, the memory that the allocator uses. Turns out though, it's specified expressively to forbid that. Which I had to lookup since I'm not one to speculate.
@SethCarnegie We can quit arguing at any time, but you're still wrong if you maintain that you didn't speculate when you based your argument in speculation and refrained from looking up the facts