Is it possible for the sizeof operator to ever return 0 (zero) in C or C++? If it is possible, is it correct from a standards point of view?

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    I came across this: msdn.microsoft.com/en-us/library/4s7x1k91(VS.71).aspx which states that sizeof can NEVER return 0 but I'm not sure if this is just a Microsoft implementation constraint (and seems to be C++ specific). – TheJuice Apr 13 '10 at 18:19
  • I wonder if the sizeof an abstract base class can be 0 (it's not possible to declare an instance of them so that objection wouldn't apply) – M.M May 28 '16 at 10:03

10 Answers 10


In C++ an empty class or struct has a sizeof at least 1 by definition. From the C++ standard, 9/3 "Classes": "Complete objects and member subobjects of class type shall have nonzero size."

In C an empty struct is not permitted, except by extension (or a flaw in the compiler).

This is a consequence of the grammar (which requires that there be something inside the braces) along with this sentence from "Structure and union specifiers": "If the struct-declaration-list contains no named members, the behavior is undefined".

If a zero-sized structure is permitted, then it's a language extension (or a flaw in the compiler). For example, in GCC the extension is documented in "Structures with No Members", which says:

GCC permits a C structure to have no members:

 struct empty {

The structure will have size zero. In C++, empty structures are part of the language. G++ treats empty structures as if they had a single member of type char.

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    In C is it not permitted or is it undefined? – TheJuice Apr 13 '10 at 18:32
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    @TheJuice: the grammar requires that there be something in the struct definition, but I think you might be able to get away (grammar-wise) with just a semi-colon (I'm not sure about that - reading BNF isn't one of my strong suits). However, if you don't have anything with a name inside the struct definition, then you're in undefined behavior territory (which really buys you nothing - you can't count on it to do anything sensible). – Michael Burr Apr 13 '10 at 18:37
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    @Michael Burr: Actually, the grammar itself already prohibits empty structs. An empty struct in C is immediately a syntax error, not a UB. The remark about "no named members - UB" is there to close a different loophole. You can declare struct { int : 1 } (i.e. an unnamed bitfield) to formally satisfy the grammar requirements. To outlaw things like that there's that extra remark there. – AnT Apr 13 '10 at 18:40
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    @Potatoswatter: (While in aggressively pedantic mood...) In that case it should be struct { int : 0; };. C language does not allow bitfields of char type :) – AnT Apr 13 '10 at 19:14
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    @Andrey: I see, C99 § "A bit-field shall have a type that is a qualified or unqualified version of _Bool, signed int, unsigned int, or some other implementation-defined type." Also, I just tested the int:1 way and GCC and G++ do make it size 1. Sorry about that. – Potatoswatter Apr 13 '10 at 19:26

sizeof never returns 0 in C and in C++. Every time you see sizeof evaluating to 0 it is a bug/glitch/extension of a specific compiler that has nothing to do with the language.

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    reference or it didn't happen. – MK. Apr 13 '10 at 18:35
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    @MK: The language standard is the refernce. There's no single place there. It all derives from such facts that any object type by definition has non-zero size in both C or in C++. The fact that you can't apply sizeof to incomplete types also plays a role. And so on. – AnT Apr 13 '10 at 18:42
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    So, in terms of votes, which question should stackoverflow rank higher: +8/-0 or +19/-11 ? One is controversial, the other is a consensus, nudge-nudge. – wilhelmtell Apr 13 '10 at 20:07
  • GCC 4.5.x returns zero for sizeof( <class> ) when used inside the declaration of class. This makes sense to me since there is no way it can know the class' size at that time. – everclear Jul 13 '13 at 16:16
  • @everclear: Firstly, that is not entirely accurate. "Inside the declaration of a class" there are places where the class is supposed to be seen as complete type. That includes default arguments, for one example. If your version of GCC returns zero from sizeof in such contexts, it is hopelessly broken and useless. – AnT Jul 13 '13 at 18:23

Every object in C must have a unique address. Worded another way, an address must hold no more than one object of a given type (in order for pointer dereferencing to work). That being said, consider an 'empty' struct:

struct emptyStruct {};

and, more specifically, an array of them:

struct emptyStruct array[10];
struct emptyStruct* ptr = &array[0];

If the objects were indeed empty (that is, if sizeof(struct emptyStruct) == 0), then ptr++ ==> (void*)ptr + sizeof(struct emptyStruct) ==> ptr, which doesn't make sense. Which object would *ptr then refer to, ptr[0] or ptr[1]?

Even if a structure has no contents, the compiler should treat it as if it is one byte in length in order to maintain the "one address, one object" principle.

The C language specification (section A7.4.8) words this requirement as

when applied to a structure or union, the result (of the sizeof operator) is the number of bytes in the object, including any padding required to make the object tile an array

Since a padding byte must be added to an "empty" object in order for it to work in an array, sizeof() must therefore return a value of at least 1 for any valid input.

Edit: Section A8.3 of the C spec calls a struct without a list of members an incomplete type, and the definition of sizeof specifically states (with emphasis added):

The operator (sizeof) may not be applied to an operand of function type, or of incomplete type, or to a bit-field.

That would imply that using sizeof on an empty struct would be equally as invalid as using it on a data type that has not been defined. If your compiler allows the use of empty structs, be aware that using sizeof on them is not allowed as per the C spec. If your compiler allows you to do this anyway, understand that this is non-standard behavior that will not work on all compilers; do not rely on this behavior.

Edit: See also this entry in Bjarne Stroustrup's FAQ.

  • That logic is why C++ requires that sizeof never return 0. But according to Michael Burr's answer, an empty struct in C is undefined behavior. Which probably explains why gcc's implementation of empty structs violates all of your assumptions. – Dennis Zickefoose Apr 13 '10 at 19:55
  • @bta: What you said might apply to C++. In C an empty struct (as in your example) is simply a constraint violation, a syntax error. So formally the issue of "size of empty struct" does not even exist in C. – AnT Apr 13 '10 at 20:20
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    @AndreyT: I realize that an empty struct is invalid in C, I just wanted to show that even if you could do it, the definition of sizeof would still return non-zero. – bta Apr 14 '10 at 0:09
  • @bta Nicely worded. You should just add that C chose to solve this problem by disallowing empty structs altogether, while C++ chose to solve it by defining them to be of size of at least 1. – wilhelmtell Apr 14 '10 at 1:06
  • @bta: gcc choses to allow empty structs in C, and assigns them a size of zero. – Dennis Zickefoose Apr 14 '10 at 2:04

Empty structs, as isbadawi mentions. Also gcc allows arrays of 0 size:

int a[0];

EDIT: After seeing the MSDN link, I tried the empty struct in VS2005 and sizeof did return 1. I'm not sure if that's a VS bug or if the spec is somehow flexible about that sort of thing

  • This is wrong. See the comments by @AndreyT on the answer of @isbadawi. – wilhelmtell Apr 13 '10 at 18:38
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    Just because GCC allows it doesn't make it legal C/C++. – John Dibling Apr 13 '10 at 18:56

in my view, it is better that sizeof returns 0 for a structure of size 0 (in the spirit of c). but then the programmer has to be careful when he takes the sizeof an empty struct.

but it may cause a problem. when array of such structures is defined, then

&arr[1] == &arr[2] == &arr[0]

which makes them lose their identities.

i guess this doesnt directly answer your question, whether it is possible or not. well that may be possible depending on the compiler. (as said in Michael's answer above).

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    it is not a matter of opinion here. there is an authority that has a final say here -- the standard -- and the question is about what the standard says about sizeof being zero. – wilhelmtell Apr 13 '10 at 18:44
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    @wilhelmtell, common sense has the potential to override any standard. – Joshua Apr 13 '10 at 19:56
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    @Joshua: And your compiler has the potential to override your common sense. If you care at all about your code functioning across multiple compilers, your best bet is to forget what your common sense tells you and stick to the standard. – Dennis Zickefoose Apr 13 '10 at 20:13
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    @Joshua sometimes the standard committee makes what looks like bad decisions. Yes, I agree. But this decision is not one of those bad decisions, if we really want to descend to futile endless opinionated discussions. The reason sizeof() an empty struct is not zero is so the standard can guarantee no two distinct instantiations of an empty struct (or two distinct empty structs) share the same memory address. In particular, this guarantees calls to operator new() will return a valid, unique memory address (or else fail altogether). – wilhelmtell Apr 14 '10 at 0:37
  • @Joshua Now, if the discussion is about whether we should listen to the standard or not then it is a futility of a different kind. The kind where we can either agree we should follow the standard, agree to disagree, or agree we shouldn't follow the standard and expect a velociraptor to come by and spontaneously bite each of our limbs off. In fact, while we're at it, why don't we disagree about speaking a common language? Disagree about relying our rationale on a common logic, or have common ethics? Surely there are better ways to get progress and order. Or, who needs these anyway? – wilhelmtell Apr 14 '10 at 0:52
typedef struct {
  int : 0;
} x;

x x1;
x x2;

Under MSVC 2010 (/Za /Wall):

sizeof(x) == 4
&x1 != &x2

Under GCC (-ansi -pedantic -Wall) :

sizeof(x) == 0
&x1 != &x2

i.e. Even though under GCC it has zero size, instances of the struct have distinct addresses.

ANSI C (C89 and C99 - I haven't looked at C++) says "It shall be possible to express the address of each individual byte of an object uniquely." This seems ambiguous in the case of a zero-sized object, since it arguably has no bytes.

Edit: "A bit-field declaration with no declarator, but only a colon and a width, indicates an unnamed bit-field. As a special case of this, a bit-field with a width of 0 indicates that no further bit-field is to be packed into the unit in which the previous bit-field, if any, was placed."


I think it never returns 0 in c , no empty structs is allowed


Here's a test, where sizeof yields 0

#include <stdio.h>

void func(int i)
        int vla[i];
        printf ("%u\n",(unsigned)sizeof vla);

int main(void)

        return 0;
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    I could be reading things wrong, but I believe that VLAs in C must have sizes greater than zero. "If the size is an expression that is not an integer constant expression: ... otherwise, each time it is evaluated it shall have a value greater than zero." – Dennis Zickefoose Apr 14 '10 at 9:41
  • Could be, gcc however, yields 0 - so "it is possible" - though maybe it's not correct. – nos Apr 14 '10 at 9:58

If you have this :

struct Foo {}; 
struct Bar { Foo v[]; }

g++ -ansi returns sizeof(Bar) == 0. As does the clang & intel compiler.

However, this does not compile with gcc. I deduce it's a C++ extension.

struct Empty {
} em;

struct Zero {
    Empty a[0];
} zr;

printf("em=%d\n", sizeof(em));
printf("zr=%d\n", sizeof(zr));


  • This prints em=1 and zr=1 on my system. – Nick A Feb 13 '17 at 16:44

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