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(Note: this question was motivated by trying to come up with preprocessor hackery to generate a no-op allocation to answer this other question:

C++ Macro that accent new object

...so bear that in mind!)

Here's a contrived class:

class foo {
    int bar;
    foo(int bar) : bar (bar)
        { std::cout << "construct foo #" << bar << std::endl; }
        { std::cout << "destruct foo #" << bar << std::endl; }

...which I will allocate like this:

// Note: for alignment, don't use char* buffer with new char[sizeof(foo)] !
void* buffer = operator new(sizeof(foo));

foo* p1 = new (buffer) foo(1);
foo* p2 = new (buffer) foo(2);

/* p1->~foo(); */ /* not necessary per spec and problematic in gen. case */

On the gcc I've got around, I get the "expected" result:

construct foo #1
construct foo #2
destruct foo #2

Which is great, but could the compiler/runtime reject this as an abuse and still be on the right side of the spec?

How about with threading? If we don't actually care about the contents of this class (let's say it's just a dummy object anyway) will it at least not crash, such as in the even simpler application which motivated this with a POD int?

share|improve this question
I'm pretty sure (but don't have references) that this isn't kosher for non-POD objects. Not sure about POD... – bdonlan Sep 23 '11 at 4:34
I think you meant "foo *p1 = new (buffer) foo(1);" – Vaughn Cato Sep 23 '11 at 4:45
Your destructor doesn't change the object's state. Most destructors are not like that. – Mike DeSimone Sep 23 '11 at 4:46
@VaughanCato yes, typing off the cuff, fixed (sigh) – HostileFork Sep 23 '11 at 4:49
Use void* buffer = operator new(sizeof(foo));, it's definitely guaranteed to be aligned (and more appropriate). – GManNickG Sep 23 '11 at 4:58
up vote 14 down vote accepted

Peforming placement-new several times on the same block of memory is perfectly fine. Moreover, however strange it might sound, you are not even requred to destruct the object that already resides in that memory (if any). The standard explicitly allows that in 3.8/4

4 A program may end the lifetime of any object by reusing the storage which the object occupies or by explicitly calling the destructor for an object of a class type with a non-trivial destructor. For an object of a class type with a non-trivial destructor, the program is not required to call the destructor explicitly before the storage which the object occupies is reused or released;[...]

In other words, it is your responsibility to take into account the consequences of not calling the destructor for some object.

However, calling the destructor on the same object twice as you do in your code is not allowed. Once you created the second object in the same region of memory, you effectively ended the lifetime of the first object (even though you never called its destructor). Now you only need to destruct the second object.

share|improve this answer
Cool. I took the first destructor out to focus the question on what I was more interested in. Thanks! – HostileFork Sep 23 '11 at 4:59
Wow! The vagueness of the last bit of the last line of your quote scares me a little - "any program that depends on the side effects produced by the destructor has undefined behavior". In particular what does "depends on" mean in this context? – Michael Anderson Sep 23 '11 at 5:01
@Michael Anderson: I already removed it from the quote as irrelevant to the question (or so it seemed to me). But I'm not exactly sure what it means either. – AnT Sep 23 '11 at 5:05
Its kind of relevant to this question though. Does performing output count as depending on side effects produced by the destructor?.. The Language Lawyer in me says yes - and hence the example given is undefined behaviour. Unless there is a more sensible interpretation of that part of the quote.. (Though IMO the whole section would make more sense without that ugly extra bit) – Michael Anderson Sep 23 '11 at 5:11
@Michael: I can imagine that if we were talking of a RAII object (shared pointer/handle, ...) you'd be very annoyed at not having the destructor called. – Matthieu M. Sep 23 '11 at 6:13
foo* p1 = new (buffer) foo(1);
foo* p2 = new (buffer) foo(2);

You are destructing the same object twice, and that alone is undefined behavior. Your implementation may decide to order a pizza when you do that, and it would still be on the right side of the spec.

Then there is the fact that your buffer may not be properly aligned to emplace an object of type foo, which is again non standard C++ (according to C++03, I think C++11 relaxes this).

Update: Regarding the question specified in the title,

Is it well-defined/legal to placement-new multiple times at the same address?

Yes, is it well-defined to placement-new multiple times at the same address, provided that it points to raw memory.

share|improve this answer
How come you always mention ordering pizza? :) You seem to make a lot of people hungry. – Mateen Ulhaq Sep 23 '11 at 4:39
The question is still relevant even without the destructor calls, as there's no technical requirement to call them. I'm apparently looking for the language-lawyer proof-from-spec of the related points. :) – HostileFork Sep 23 '11 at 4:41
Ordering pizza would be a far more productive output than what it usually does in that case. I want to see the signal handlers and/or OS support needed since that would be a great feature to add to this Fuel System Icing Inhibitor we're developing. We've managed to shoehorn in most of a disk operating system so far.... – Mike DeSimone Sep 23 '11 at 4:42
Seriously, though, you can solve the alignment problem by properly declaring buffer as an array of a fundamental type that needs the same alignment. E.g. if you need four-byte alignment, declare it as int32_t buffer[sizeof(foo) / 4 + 1]; or similar. And get rid of the & in front of buffer so the compiler doesn't bark. – Mike DeSimone Sep 23 '11 at 4:45
@Hostile Fork: Can't you just #undef that macro and provide your own definition replacement for it? – K-ballo Sep 23 '11 at 4:45

No - this doesn't look right.

When you use placement new, the object will be constructed at the address you pass. In this example you're passing the same address (i.e. &buffer[0]) twice, so the second object is just obliterating the first object that's already been constructed at this location.

EDIT: I don't think I understand what you're trying to do.

If you have a general object type (that may have non-trivial ctor/dtor's that might allocate/deallocate resources) and you obliterate the first object by placement new'ing over the top of it without first explicitly calling it's destructor, this will at least be a memory leak.

share|improve this answer
See motivating example, and consider threading: stackoverflow.com/questions/7522949/… – HostileFork Sep 23 '11 at 4:42
@HostileFork: re-reading your edits I assume that your object type will always be trivial - so the "obliteration" concerns may not be relevant... – Darren Engwirda Sep 23 '11 at 5:03
See accepted answer. Sounds like double destructor calls can lead to problems, but the obliteration is okay per spec. Placement new is one of those oddball things I guess where the compiler will take your word for it! – HostileFork Sep 23 '11 at 14:30

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