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As we know, the C++ standard defines two forms of global allocation functions:

void* operator new(size_t);
void* operator new[](size_t);

And also, the draft C++ standard (18.6.1.2 n3797) says:

227) It is not the direct responsibility of operator new or operator delete to note the repetition count or element size of the array. Those operations are performed elsewhere in the array new and delete expressions. The array new expression, may, however, increase the size argument to operator new to obtain space to store supplemental information.

What makes me confused is:

What if we remove void* operator new[](size_t); from the standard, and just use void* operator new(size_t) instead? What's the rationale to define a redundant global allocation function?

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Interesting question. Usually, when adding C++ support to a C-only system, operator new and operator new[] both just turn around and call malloc. –  Mike DeSimone Jul 7 '14 at 4:44
    
Just speculating here. But it is actually a valid distinction in the case of overloading those operators for a class type, so perhaps it is consistent to make the global versions have the same interface. –  Matt McNabb Jul 7 '14 at 4:57
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The note is odd in that there is presumably no reason why the non-array version might also not increase the size argument to operator new to obtain space to store supplemental information, although no remark to that effect is made. –  Keith Jul 7 '14 at 5:09
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@Keith: I remembered reading somewhere in the Standard that that's specifically disallowed - found it - "it may be greater than the size of the object being created only if the object is an array" –  Tony D Jul 7 '14 at 5:40
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@Keith: you said "presumably no reason why the non-array version might also not increase the size argument to operator new to obtain space to store supplemental information" - clearly you were talking about the new[] expression as that's where the Standard says the increase is allowed - I'm just saying that the non-array equivalent is not allowed to do that. If you want to speculate that it can happen elsewhere, that's fine but distinct. –  Tony D Jul 7 '14 at 5:55

5 Answers 5

up vote 11 down vote accepted

I think ::operator new[] may have been useful for fairly specialized systems where "big but few" arrays might be allocated by a different allocator than "small but numerous" objects. However, it's currently something of a relic.

operator new can reasonably expect that an object will be constructed at the exact address returned, but operator new[] cannot. The first bytes of the allocation block might be used for a size "cookie", the array might be sparsely initialized, etc. The distinction becomes more meaningful for member operator new, which may be specialized for its particular class.

In any case, ::operator new[] cannot be very essential, because std::vector (via std::allocator), which is currently the most popular way to obtain dynamic arrays, ignores it.

In modern C++, custom allocators are generally a better choice than customized operator new. Actually, new expressions should be avoided entirely in favor of container (or smart-pointer, etc) classes, which provide more exception safety.

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I'm shocked, I say, shocked and dismayed that std::vector does not use new[]! Hmmph. –  einpoklum Jul 7 '14 at 10:23
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In my opinion this is incorrect. See answer. –  david.pfx Jul 7 '14 at 10:29
    
@einpoklum: vector requires placement news to work, and placement new with arrays is a nightmare, and trying to use new[] multiple times in a preallocated buffer like vector requires is outright impossible to do portably. –  Mooing Duck Jul 7 '14 at 16:45
    
@david.pfx What part of this is incorrect? You vaguely mention "specialized array indexing" and "CDC, IBM, etc" but that's a long way from a specific claim, and my very first sentence covers that ground. (I did not mention memory pools, I said "allocated by a different allocator" and this covers accommodation of architectural peculiarity.) "Extra storage space for array indexing" in your answer should be elaborated; the requirements might be stricter than you think. –  Potatoswatter Jul 8 '14 at 6:55
    
@einpoklum If you want, you can make your own allocator which is identical to std::allocator except for calling ::operator new[] instead of ::operator new (and corresponding delete). But, there is probably nothing to be gained, since every implementation is already optimized for the default std::vector which allocates arrays using the non-array functions. –  Potatoswatter Jul 8 '14 at 7:04

The standard (n3936) makes it clear that these two operators serve different but related purposes.

operator new calls the function void* operator new(std::size_t). The first argument must be identical to the argument to the operator. It returns a block of storage suitably aligned, and which may be somewhat larger than required.

operator new[] calls the function void* operator new[](std::size_t). The first argument may be larger than the argument supplied to the operator, to provide extra storage space if required for array indexing. The default implement for both is to simply call malloc().

The purpose of operator new[] is to support specialised array indexing, if available. It has nothing to do with memory pools or anything else. In a conforming implementation that made use of this feature, the implementation would set up specialised tables in the extra space and the compiler would generate code for instructions or calls to library library support routines that made use of those tables. C++ code using arrays and failing to use new[] would fail on those platforms.

I am not personally aware of any such implementation, but it resembles the kind of features required for the support of certain mainframes (CDC, IBM, etc) which have an architecture quite unlike the Intel or RISC chips we know and love.

In my opinion, the accepted answer is incorrect.


Just for completeness, the standard (n3936 mostly in S5.3.4) contains the following.

  1. A distinction between allocating an 'array object' or a 'non-array object'
  2. References to 'array allocation overhead', with the implication that extra storage might be needed and it might (somehow) be used for a repetition count or element size.

There is no reference to memory pools or any hint that this might be a consideration.

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So on those implementations std::vector<int, std::allocator<int> > wouldn't work? –  Mehrdad Jul 7 '14 at 11:09
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@Mehrdad: They would work. It is an optimization that could be performed by the compiler to allocate the extra space in order to be used by (compiler-generated) specialized lookup code. –  Daniel Jul 7 '14 at 14:25
    
Hard to say without an actual implementation to look at. –  david.pfx Jul 7 '14 at 14:37
    
"The purpose of operator new[] is to support specialised array indexing, if available. It has nothing to do with memory pools or anything else." - do you have any reference or personal experience to support this claim about the intent of the people involved in specifying this, or is this your deduction based on your perception of utility? –  Tony D Jul 8 '14 at 2:11
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Then I think you've misapprehended what that part of the Standard is about... many existing implementations store a count of the number of elements in the array at a known offset from the returned pointer so that delete[] can find that number and call the destructor for the appropriate number of elements - that explains all the parts of the Standard you mention. Your "specialised array indexing" and "specialised tables" makes it sound like some cross-memory-segment fragmentation of the array in virtual address space, which is a completely different prospect, not alluded to by the Standard. –  Tony D Jul 8 '14 at 4:15

::operator new[] and ~delete[] facilitate memory usage debugging, being a central point to audit allocation and deallocation operations; you can then ensure the array form is used for both or neither.

There are also lots of plausible if highly unusual/crude tuning uses:

  • allocate arrays from a separate pool, perhaps because that crucially improved average cache hits for small single-object dynamically-allocated objects,

  • different memory access hints (ala madvise) for array/non-array data

All that's a bit weird and outside the day-to-day concerns of 99.999% of programmers, but why prevent it being possible?

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@MooingDuck: carefully note the leading "~"... O_o. –  Tony D Jul 8 '14 at 1:42
    
I'd figured that was a typo, I've never encountered that syntax except with pseudo destructor names. –  Mooing Duck Jul 8 '14 at 1:45
    
@MooingDuck: it's a shorthand in general English usage - not a C++ notation - to say that the prefix of some previous entry appears in the same place, often used in dictionary entries; for example: trouble <description> ~some <description of troublesome> ... –  Tony D Jul 8 '14 at 1:51
    
… English or Perl? … Following the dictionary, I'm inspired to #define opərator operator –  Potatoswatter Jul 8 '14 at 7:06
    
@Potatoswatter: knock yourself out... whatever swats your spud. –  Tony D Jul 8 '14 at 9:05

I'm sure there are proper use-cases out there that require separate new[] and new, but I haven't encountered one yet that is uniquely possible with this separation and nothing else.

However, I see it like this: since the user calls different versions of operator new, the C++ standard would have been guilty of wantonly and deliberately losing information if they'd defined just one operator new and had both new and new[] forward there. There is (literally) one bit of information here, that might be useful to somebody, and I don't think people on the committee could have thrown it out in good conscience!

Besides, having to implement the extra new[] is a very very minor inconvenience to the rest of us, if at all, so the trade off of preserving a single bit of information wins against having to implement a single simple function in a small fraction of our programs.

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The C++ Programming Language: Special Edition p 423 says

_The operator new() and operator delete() functions allow a user to take over allocation and deallocation of individual objects; operator new[]() and operator delete[]() serve exactly the same role for the allocation and deallocation of arrays.

Thanks Tony D for correcting my misunderstanding of this nuance.

Wow, it's not often I'm caught out on something in C++ I'm so certain about - I must have been spending too much time in Objective-C!

original wrong answer

It's simple - the new[] form invokes the constructor on every element of a classic C array.

So it first allocates the space for all the objects, then iterates calling the constructor for each slot.

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You're thinking of a new expression, instead of operator new. Subtly different. –  Mooing Duck Jul 7 '14 at 16:48
    
I'm confused by your answer. I thought operator new was used to define the effects delivered by using the new expression. Are you saying that the link on cplusplus.com is also wrong? –  Andy Dent Jul 8 '14 at 10:08
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@AndyDent: it often is (I prefer cppreference or the Standard itself) but in this case it's correct: "An expression with the new operator on an array type, first calls function operator new (i.e., this function) [...], and if this is successful, it then automatically initializes or constructs every object in the array (if needed)." Note how that says it's the new expression that's responsible for calling the operator then doing the construction you describe.... –  Tony D Jul 8 '14 at 15:06
    
edited answer to match Tony's understanding after checking the bible –  Andy Dent Jul 14 '14 at 8:45

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