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Well I don't think that it's really important but since the program has to store the length because of delete[] anyway, Why can't we get this "stored information" ?

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closed as not constructive by Oliver Charlesworth, H2CO3, ildjarn, AProgrammer, Evan Mulawski Jun 29 '12 at 21:15

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Because that's what the C++ standard says. –  Oliver Charlesworth Jun 29 '12 at 14:54
@trumpetlicks why not? I see it as a question about a language feature. It can be useful to know the motivation. –  Luchian Grigore Jun 29 '12 at 14:55
Tagged as language-design, it's a well-fit and on-topic question for this tag I think –  Kos Jun 29 '12 at 14:57
@trumpetlicks motivation (for making a choice in design) is very useful, not just interesting. –  Luchian Grigore Jun 29 '12 at 15:05
@LuchianGrigore - Quoted from SO FAQ - "You should only ask practical, answerable questions based on actual problems that you face. Chatty, open-ended questions diminish the usefulness of our site and push other questions off the front page." How is this NOT an open ended, non-specific problem solving question? There is NO specific problem this question is trying to solve! You are right, I think it an INTERESTING question, but not necessarily an SO question. –  trumpetlicks Jun 29 '12 at 15:10

10 Answers 10

up vote 9 down vote accepted

The implementation only needs to store the length, and typically only does, if the type is not trivially destructible (i.e., it needs to generate calls to a destructor) and the array was created with the new[] operator.

Since that property of the arrayed type bears no relation to the size of the array, it is more elegant simply to call the length "cookie" a private implementation detail.

To get the length of a complete array object (not a mere pointer), you can use std::extent< decltype( arr ) >::value or std::end( arr ) - std::begin( arr ).

Using new[] with a class with a destructor is a code smell. Consider std::vector instead. The overhead vs raw new[] (considering all bytes that need to be allocated, wherever they are) is one pointer's worth of bytes, and the benefits are innumerable.

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Add to that it is not hard to get the length with what the language provides, e.g. with the standard template implementation. –  Benjamin Bannier Jun 29 '12 at 15:01
Actually the overhead of vector is two pointers (or sizes), since it has to track both size and capacity. +1 anyway. –  Mike Seymour Jun 29 '12 at 15:11
@MikeSeymour But subtract one pointer of overhead because the length cookie of the dynamic array is as big as a pointer. –  Potatoswatter Jun 29 '12 at 15:14
Explain downvote? –  Potatoswatter Jun 29 '12 at 15:18
@MooingDuck And I don't think you're reading closely. A vector is three pointers. An array of nontrivially-destructible class is one pointer plus a "cookie" as big as a pointer. Three minus two is one, if you prefer it that way. I would't consider the pointer-to-array to be "overhead" in any sense. See my comment on Nathan's answer re the relationship of the allocator (more precisely, operator new[]) to the cookie. Anyway, I don't believe you'd downvote without comment for such a nitpick… –  Potatoswatter Jun 29 '12 at 16:14

Consider the case:

char* a = new char[100];

Now a needs to point to a buffer that's at least 100 chars big, but the system might have allocated a bigger buffer to fulfill this.

With this in mind, we can see that the system is free to immediately forget the size the program asked for, as long as it can still deallocate the buffer properly later. (Either by remembering the size of the allocated buffer or doing the memory allocation with some smart data structure where only the pointer to the start is required)

So, in the general case, the information you are looking for is not, in fact, stored anywhere.

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Not all arrays are allocated by new.

void f(int* arr, size_t n)
  length(arr);  //  ???

int main()
  int a[5];

It's trivial to write though, just call (std::end(arr) - std::begin(arr)), although it only works for arrays, not pointers that point to the start of arrays.

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The old (sizeof(arr) / sizeof(*arr)) trick works too for real arrays, but I like the new style –  stefaanv Jun 29 '12 at 15:37
Iterator subtraction can't be (easily) optimized to a constant. sizeof is, but it's less safe. template <typename T, std::size_t N> constexpr std::size_t length(T(&)[N]) { return N; } is safe and can optimize to a constant. –  user79758 Jun 29 '12 at 19:53
@JoeWreschnig, those aren't general iterators, they're pointers, and the difference between two addresses in the same array can be optimised to a constant. And I suggested end-begin because that's trivial, whereas defining that function template is not trivial, it involves non-type template parameters and an ugly array declarator - not suitable for beginners! –  Jonathan Wakely Jul 2 '12 at 21:01

My understanding is that the philosophy of c++ is to not force on people any feature that has a potential cost unless unavoidable.

There may be additional costs in storing this information, and the user may not want to pay that cost if they don't need the information. And as it's trivial to store the length yourself if you want it there is no reason to provide a language feature that has a cost to everyone using an array.

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For proper arrays, that is, int a[length], you already have that facility: just do

#define length(A) (sizeof(A) / sizeof(*A))

and you are done with it.

If you are talking about getting the length of the array pointed to by a pointer, well, pointers and arrays are two different concepts and coupling them makes no sense, even if proper arrays "decays" to pointers when needed and you access arrays through pointer arithmetic.

But even if we don't take that into account and talk about technological aspects, the C++ runtime may not know what the length of your array is, since new could rely on malloc, which stores the length of the array in its specific ways, which is understood only by free: the C++ runtime only stores extra informations only when you have non-empty destructors. A pretty messy picture, huh?

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You can also use std::extent<decltype(A)>::value. –  bstamour Jun 29 '12 at 18:37
good to know, thanks –  akappa Jun 29 '12 at 20:32

because its up to the implementation where it stores this information. so there is no general way to do a length(array)

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length(array) could be up to the implementation as well. –  Kos Jun 29 '12 at 14:56

The length is most certainly not stored on all implementations. C++, for example, allows for garbage collection (e.g. boehmgc), and many collectors do not need to know the length. In traditional allocators, the length stored will often be larger than the actual length, i.e. the length allocated, not the length used.

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The length (number of objects, not bytes) does need to be stored somewhere if the objects of the array have nontrivial destructors. Such a mechanism is transparent to the allocator, which blindly allocates some padding bytes for the implementation. GC with non-POD objects is a new and bleeding-edge feature. –  Potatoswatter Jun 29 '12 at 15:12
yes, but that's only a subset of cases, and I can think of ways of avoiding storing the length (e.g. sentinel keys.) –  Nathan Binkert Jun 29 '12 at 15:14
Not sure what you mean by that. Do you mean to use padding bytes for the sentinel? What if there's no padding? Anyway, all implementations do it the same way, so "not stored on all implementations" is wrong… although it's also true that there are cases where no implementation stores a length value. See my answer. –  Potatoswatter Jun 29 '12 at 15:17

But, what exactly is the length of the array? Is it the number of bytes in the array or the number of elements in the array?

For example : for some class A of 100 byte size,

A* myArray = new A[100];

should length(myArray) return 100 or 100 * 100? Somebody might want 100, somebody might want 10000. So, there is no real argument for either of that.

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C++ consistently favors counting objects, not bytes. –  Potatoswatter Jun 29 '12 at 15:21

In addition to all the other reasons, there's the need to maintain interoperability with C.
Since C doesn't provide a length operation for arrays, neither can C++.

It would also be wasteful to store the length of arrays that aren't allocated on the free store, which is probably one reason C doesn't do it in the first place.

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That's bullshit, templates are also not interoperable with C, neither are overloading and classes... –  Xeo Jun 29 '12 at 16:15
@Xeo: Nothing stops any of those from using any C code. A separate "C array" type with associated "C pointer" would just complicate things. Maybe "interoperability" wasn't the best choice of word, since it's more a unidirectional backwards compatibility thing. –  molbdnilo Jun 29 '12 at 17:32

The c++ type that works most like the "arrays" in languages that support length(array) is std::vector<>, and it does have std::vector<>::size().

The size of plain [] arrays is known to the compiler in scopes where the size is explicit, of course, but it is possible to pass them to scopes where the size is not known to the compiler. This gives c++ more ways to handle array-like data than languages that must support a length interogative (because they have to insure that the size is always passed).

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