Lounge<C++>

Abyx

12:01 AM

it seems that you can't delete[] array initialized with placement new, so it shouldn't keep information about size

R. Martinho Fernandes

If you placement new something, you need to use explicit destructor calls.

So with placement new[] you need to track how many destructors to call yourself.

FredOverflow

Why does placement new[] even exist? Can't we just use placement new and treat it as an array? In fact, I believe that is exactly what std::vector<T> does.

Mooing Duck

0

Q: Placement new requires unspecified space in the buffer?

5.3.4 [expr.new] of the C++11 Feb draft gives the example: new T[5] results in a call of operator new[](sizeof(T)*5+x) with the text: Here, x and y are non-negative unspecified values representing array allocation overhead; the result of the new-expression will be offset by this amount f...

R. Martinho Fernandes

@FredOverflow Yes, if you have enough storage you can just construct the elements yourself.

FredOverflow

Crap I meant operator new, not placement new, I hope that was obvious :)

Mooing Duck

12:06 AM

I linked the beginning of the chat as well, if anyone cares

FredOverflow

Why does operator new[] even exist? Can't we just use operator new and treat it as an array? In fact, I believe that is exactly what std::vector<T> does.

Abyx

@RMartinhoFernandes and destruct if exception occurs

Mooing Duck

@FredOverflow you already said that. And no reason at all.

R. Martinho Fernandes

@FredOverflow To make placement new[] expressions work.

Like @Abyx remarked, it handles exceptions.

refp

hmm.. is it worth while writing an ircd <-> SO chat translator, so that any IRC client could be used to access this chat?

FredOverflow

12:08 AM

@MooingDuck I replaced two instances of operator new with operator new[] in your question, I hope that was okay.

@refp Would the IRC client notice edits and deletes?

refp

and please don't mention that python implementation, it sucks balls and besides.. that project seems dead

Mooing Duck

@FredOverflow yeah, I typo'd. Kerrek sure lept on that

refp

@FredOverflow it might send those as NOTICE's, yes

DeadMG

I'm gonna goto sleep;

FredOverflow

@MooingDuck No, I didn't already say that.

R. Martinho Fernandes

12:09 AM

@DeadMG Noooo! Use a loop!

FredOverflow

@DeadMG Don't let the raptors get you in your sleep!

refp

@FredOverflow though I already have a prewritten irssi module which adds support for regular expression replacements, but sure - of course edits and deletes will be taken into consideration

DeadMG

lol

Mooing Duck

@FredOverflow oh, a few words changed

Kerrek SB

@MooingDuck: There's even an FPA on allocation. That's how often it comes up.

Mooing Duck

12:10 AM

@KerrekSB FPA?

Kerrek SB

@MooingDuck Linked. A "frequently pasted answer"

Mooing Duck

@KerrekSB true, but I never thought about who calls the constructors before.

@KerrekSB which is sad since I've written three allocators myself :(

DeadMG

your mother does

refp

@FredOverflow and of course (since I like making things overly complicated) I'll write the whole thing in c++

R. Martinho Fernandes

@KerrekSB: the duck was a bit careless with the question and your answer does not at all answer the intended question :( Not your fault.

Kerrek SB

12:13 AM

@MooingDuck You should.

@RMartinhoFernandes What's the intended question then?

R. Martinho Fernandes

@KerrekSB I posted a comment.

Kerrek SB

I don't think that's valid C++

new (buf) T[10]??

R. Martinho Fernandes

Looks weird doesn't it?

But there is a void* operator new[](size_t, void*) that exists just to support that.

Mooing Duck

@KerrekSB yeah, there was two questions. I made them both bold now.

FredOverflow

@KerrekSB Actually, it is valid C++.

Mooing Duck

12:15 AM

@KerrekSB that's what sparked the question/debate

@RMartinhoFernandes facepalms and walks away humilated

R. Martinho Fernandes

@MooingDuck And I just fixed it.

Kerrek SB

@MooingDuck Oh OK, but that placement function just returns the second argument, doesn't it?

Mooing Duck

@KerrekSB yes. Well, now I know that. Your answer should mention it.

Kerrek SB

Yeah. Global placement-new and placement-array-new operators are required to be no-ops.

Mooing Duck

@KerrekSB it seems like a conforming compiler could give operator new[] my pointer + sizeof(T) and that would be ok, except my code would now write past the end of the array, which the spec clearly states is my fault :(

R. Martinho Fernandes

12:21 AM

Right, but the result of the new expression is offset by that + x part from the result of operator new[].

FredOverflow

@RMartinhoFernandes I edited further.

R. Martinho Fernandes

And ...

> The address of the created object will not necessarily be the same as that of the block if the object is an array.

There must be a guarantee somewhere that void* buf = get_it(); auto* buf2 = new(buf) T[10]; assert(buf == buf2);.

Mooing Duck

@FredOverflow eh, I guess the second question wasn't necessary, and was distracting from the main point wasn't it?

Kerrek SB

OK, updated.

FredOverflow

@MooingDuck Yes, absolutely.

R. Martinho Fernandes

12:22 AM

Without that, you can't be sure to allocate a buffer big enough.

Kerrek SB

@MooingDuck No, global placement-operators are required to be no-ops.

Otherwise you couldn't reliably implement any other higher-level allocation constructs.

Mooing Duck

@KerrekSB right, but new might give the global placement operator the buffer + unspecified value according to the quote in the question.

R. Martinho Fernandes

@KerrekSB But when the object is an array, the new expression is not required to return the same address as operator new[].

Mooing Duck

@RMartinhoFernandes yes it is, you got that backwards

R. Martinho Fernandes

3 mins ago, by R. Martinho Fernandes

> The address of the created object will not necessarily be the same as that of the block if the object is an array.

Mooing Duck

12:24 AM

@RMartinhoFernandes the new expression is not required to give operator new[] the address it was given.

R. Martinho Fernandes

It's in a Note though.

kbok

Oh, I see you're still on that.

R. Martinho Fernandes

@MooingDuck Yes, it is. It must pass the arguments along unchanged.

Mooing Duck

@RMartinhoFernandes yeah, because it might give operator new a different address than the buffer

R. Martinho Fernandes

@MooingDuck No!

Mooing Duck

12:25 AM

@RMartinhoFernandes no? Did I do it wrong again? I'm going to reread

5.3.4 [expr.new] new(2,f) T[5] results in a call of operator new[](sizeof(T)*5+y,2,f)

kbok

By the way, thanks for your help. I think I'll go to sleep now.

R. Martinho Fernandes

@MooingDuck It's only the size argument that is special.

@MooingDuck The 2 and the f are passed unchanged.

Mooing Duck

@RMartinhoFernandes oh, whoops, you're 100% correct

Kerrek SB

@RMartinhoFernandes No, indeed. The new expression returns the beginning of the array

R. Martinho Fernandes

@KerrekSB Right. See the issue now?

How can you make a buffer big enough to placement new an array in it?

5 mins ago, by R. Martinho Fernandes

There must be a guarantee somewhere that void* buf = get_it(); auto* buf2 = new(buf) T[10]; assert(buf == buf2);.

Kerrek SB

12:27 AM

@RMartinhoFernandes You just make it N * sizeof(T) big

Mooing Duck

@KerrekSB what about the unspecified overhead?

FredOverflow

@KerrekSB But what if y > 0?

Kerrek SB

The *placement*-array-new expression returns the actual pointer

@MooingDuck That doesn't exist for placement-new

Only the **default**-array-new is the odd-man-out

@FredOverflow It won't be

R. Martinho Fernandes

@KerrekSB Find the guarantee it returns the same pointer as operator new[] and quote it in your answer.

Mooing Duck

@KerrekSB spec doesn't seem to say that. Interweb seems to imply it's only coincidentally adding 0 bytes of overhead

R. Martinho Fernandes

12:29 AM

All I can find is mentions that it can return a different one.

Kerrek SB

::new (buf) T[10] is essentially identical to ten constructions at buf + i

FredOverflow

@KerrekSB Then why does the standard say new(2,f) T[5] results in a call of operator new[](sizeof(T)*5+y,2,f)?

Kerrek SB

@FredOverflow That's not the global default placement-new...

Maybe there's some confusion? There's the "standard placement new", and then there are all other "generalized placement new"s

R. Martinho Fernandes

@KerrekSB But the same thing applies to global placement new[]. It's quoted in the question.

Mooing Duck

@KerrekSB that bit of the standard applies to all new expressions as far as I can tell

R. Martinho Fernandes

12:31 AM

> the result of the new-expression will be offset by this amount from the value returned by operator new[]

This doesn't say the amount is zero (I previously misinterpreted it and say it did imply that).

Mooing Duck

chat.stackoverflow.com/transcript/message/2270765#2270765 I should keep track of how many times he's moo'd at me

Kerrek SB

I see.

OK then. But does it matter?

R. Martinho Fernandes

Good. Now you can hunt the real issue.

:)

Kerrek SB

You just allocate as much as you're asked

Mooing Duck

@RMartinhoFernandes where's your answer?

R. Martinho Fernandes

12:33 AM

@KerrekSB You can't know that.

Kerrek SB

The allocation function only sees the final value

@RMartinhoFernandes Why not? It's the argument value!

R. Martinho Fernandes

@KerrekSB You can't get it from a standard library function.

Kerrek SB

new (buf) T[10]; may call T::new[](317, buf), so you allocate 317 bytes

@RMartinhoFernandes I'm not following. Can you give me an example of where you don't know how much memory you need?

R. Martinho Fernandes

void* buf = get_it(); auto* buf2 = new(buf) int[10];

FredOverflow

If I want to construct a 10 int array in place, I say new (buffer40bytes) int[10]; which will call operator new[](40 + y, buffer40bytes) under the hood, right? If y > 0 then the buffer is too small, so how much should I have allocated in the first place?

R. Martinho Fernandes

12:35 AM

Exactly.

Kerrek SB

Ah. You don't use placement-array-new.

Mooing Duck

@KerrekSB there seems to be no guarantee in the standard that placement new requires no overhead space

R. Martinho Fernandes

@KerrekSB lol

Kerrek SB

Use a loop of ordinary placement-news instead

Mooing Duck

@KerrekSB so it's in the language but cannot be safely used?

Kerrek SB

12:35 AM

Array-new is for client-code only.

R. Martinho Fernandes

So the answer is "Global placement array new is unusable"?

Mooing Duck

@KerrekSB client-code?

Kerrek SB

Interesting. So we still have the requirement that ::operator new[](n, p) returns p, right?

R. Martinho Fernandes

@MooingDuck Well, I noticed I misinterpreted that offseting part. So I don't have one yet.

Kerrek SB

@MooingDuck As in, not library code

Mooing Duck

12:36 AM

@KerrekSB yes

R. Martinho Fernandes

@KerrekSB Right. But ::new(p) T[n] can return p+10 if it wants.

Kerrek SB

Well, your own operator new[](size_t, void*) is welcome to check that the pointer points to sufficient memory...

R. Martinho Fernandes

(Unless you find proof to the contrary, that is)

Kerrek SB

@RMartinhoFernandes Hm. Apparently. Interesting.

OK, to condense the question down: Is the following guaranteed to work:

Cat Plus Plus

So, did I mention I'm starting to like Factor very much?

Kerrek SB

12:39 AM

void * addr = malloc(10 * sizeof(T));
T * arr = ::new (addr) T[10];

Cat Plus Plus

And that I hate the thing that I'm supposed to be learning now?

R. Martinho Fernandes

@KerrekSB Right.

Kerrek SB

That, by itself, would make a more palatable SO question! :-)

Mooing Duck

@KerrekSB yeah, that was the intent

Kerrek SB

Second question: Is arr == addr?

Mooing Duck

12:40 AM

@KerrekSB Are you stepping up, or should I try my failure some more?

Kerrek SB

Very interesting. Indeed, if it isn't, then it's hard to envisage how you'd use placement-array-new.

R. Martinho Fernandes

18 mins ago, by R. Martinho Fernandes

There must be a guarantee somewhere that void* buf = get_it(); auto* buf2 = new(buf) T[10]; assert(buf == buf2);.

@CatPlusPlus Yes, both. More than once.

@KerrekSB Yep.

Cat Plus Plus

Well, it's true.

Kerrek SB

@MooingDuck I wouldn't mind if you simplified the question a bit... :-) But no worries. Let me check the standard again.

Doesn't help that allocation is spread out through three different sections

Mooing Duck

@KerrekSB three? I only found two. Then again I've never found vector's constructors either.

Kerrek SB

12:42 AM

5, 12 and 18 I think

R. Martinho Fernandes

12 is Special member functions.

Kerrek SB

Oh, 3 as well

3.7.4

sehe

@KerrekSB: You're basically covering the whole standard using a monte-carlo algorithm now?

Mooing Duck

@RMartinhoFernandes oh right, free store member function

Kerrek SB

@sehe No, just trying to gather all the parts that relate to allocation ;-) It's similar to throwing random darts at the standard.

sehe

12:45 AM

That's what I meant

Mooing Duck

@RMartinhoFernandes er, what if that space is there for alignment purposes for placement-new into a local char buffer? Is that the answer to all this? Why doesn't the standard say?

Kerrek SB

I think it's this: 3.7.4, 5.3.4, 12.5, 18.6

I think the goal is to recover the digits of pi

R. Martinho Fernandes

@MooingDuck You're required to take care of alignment yourself (new char[n] is properly aligned, automatic arrays are not).

Mooing Duck

@RMartinhoFernandes oh right. But I haven't seen that bit in the spec during this discussion. WHere's it say that?

R. Martinho Fernandes

Dunno. :(

In one of the several places it talks about allocation.

Mooing Duck

12:48 AM

@RMartinhoFernandes wait, wrong section

Kerrek SB

@MooingDuck Perhaps you should change your title to "Placement array-new ..."

R. Martinho Fernandes

@MooingDuck lol

Pubby

Anyone see this? codecademy.com/#!/exercises/0

Mooing Duck

@RMartinhoFernandes I see the requirement on the allocators but not on the parameter so far

R. Martinho Fernandes

@Pubby What should I be expecting to see?

FredOverflow

12:51 AM

@KerrekSB I gave the question a makeover.

6

Q: Placement array new requires unspecified overhead in the buffer?

5.3.4 [expr.new] of the C++11 Feb draft gives the example: new(2,f) T[5] results in a call of operator new[](sizeof(T)*5+y,2,f). Here, x and y are non-negative unspecified values representing array allocation overhead; the result of the new-expression will be offset by this amount from ...

c++ memory-allocation standards placement-new

Pubby

@RMartinhoFernandes It's not working? It's like that interactive haskell prompt except with JavaScript

R. Martinho Fernandes

@Pubby Ah, needs JS. Lemme try. If my browser is compromised it's your fault.

Cat Plus Plus

Great job! Now, let's do some math. You can do math through programming! To calculate 2+2, for instance, just type 2+2. Try it now!
> 3+3
==> 6
Oops, try again.

3+3 is not math.

Loki Astari

Hi. Do we have a list of the 10 most common C++ questions that come up each year when college starts? ie. Why does ++c++ seem to work on my machine.

R. Martinho Fernandes

lol

Mooing Duck

12:53 AM

@RMartinhoFernandes I've searched for the word "alignment" in all the sections kerrek linked, (5.3.4 twice!) and I can't find anything that says the buffer to placement new must be aligned. Only that allocators are assumed to return aligned buffers. I guess since operator new(size_t, void*) returns it's parameter, that's almost an implicit requirement....

R. Martinho Fernandes

@MooingDuck But since placement new doesn't align it, it's up to you.

Mooing Duck

@RMartinhoFernandes they should put this stuff in the standard somewhere :(

FredOverflow

@LokiAstari ++c++ cannot possibly work, because it is parsed as ++(c++), but c++ is an rvalue, and you cannot increment that (unless c is an object of a user-defined type).

Loki Astari

"3.11 Alignment [basic.align]"
1 Object types have alignment requirements (3.9.1, 3.9.2)

R. Martinho Fernandes

@MooingDuck It is. In the place that says in general you can't use stuff unaligned.

Alf P. Steinbach

12:55 AM

@MooingDuck alignment is a requirement of the type in question, not of new expression

Mooing Duck

@LokiAstari "why does it work when I return a pointer to a local int and read and write it?"

Cat Plus Plus

Nearly all questions are about some form of UB.

FredOverflow

@MooingDuck returning local ints is not a problem per se, only if the local int is automatic. If it is static, there is no problem.

Loki Astari

@FredOverflow: Yes I know. The point is do we have a list of the stupid questions that are asked each year.

Mooing Duck

@CatPlusPlus yeah

R. Martinho Fernandes

12:56 AM

@FredOverflow But newbies don't even know what a static local is so they don't ask about it.

Cat Plus Plus

The rest is about crashes by stupid.

Loki Astari

@MooingDuck: Why does what work?

Mooing Duck

@LokiAstari see what that was a reply to

Alf P. Steinbach

@LokiAstari that's what a faq list should be, ideally

FredOverflow

@LokiAstari I don't think so. Do we need a c++-yasq tag (yearly asked stupid questions)? :)

Mooing Duck

12:57 AM

@AlfPSteinbach nobody reads those

Alf P. Steinbach

maybe the C++ FAQ Lite is what you're l00king for

?

R. Martinho Fernandes

Why zeros?

FredOverflow

@AlfPSteinbach I don't think FAQ == stupid question.

Alf P. Steinbach

why n0t?

R. Martinho Fernandes

FAQ is not Frequently Asked Non-Stupid Questions.

3

Mooing Duck

12:58 AM

so did we all give up on the placement array new question then? Fair enough

Alf P. Steinbach

@FredOverflow i think we can safely assume that the most asked questions are stupid

Kerrek SB

Hmmm.. I think what really matters, at the heart of things, is what the array-new expression does.

R. Martinho Fernandes

So it includes stupid questions too.

@MooingDuck I think Kerrek is still standard-diving.

Kerrek SB

Ultimately I don't care if it passes a N * sizeof(T) + 1000 to the allocation function.

As long as it constructs the array starting at the specified address.

R. Martinho Fernandes

@KerrekSB If it does, it returns p + 1000.

Kerrek SB

12:59 AM

@FredOverflow It's very nice now.

R. Martinho Fernandes

The result of the expression is offset by the overhead.

Kerrek SB

@RMartinhoFernandes No, it returns the second argument!

FredOverflow

@KerrekSB Cool thanks :)

Mooing Duck

@RMartinhoFernandes Kerrek is right, it returns the correct pointer

R. Martinho Fernandes

@KerrekSB The new expression, I mean.

Kerrek SB

12:59 AM

@RMartinhoFernandes Does it say that?

R. Martinho Fernandes

If new(buf) T[10] calls operator new[](sizeof(T)*10 + 1000, buf) it returns buf+1000.

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