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I would like to perform a compile-time check on datatype sizes in a C/C++ project, and error on unexpected mismatches. Simple

#if sizeof foo_t != sizeof bar_t

does not compile - claims that sizeof is not a proper compile-time constant.

The desired scope of platforms - at the very least Visual C++ with Win32/64, and GCC on x86/amd64.

EDIT: compile-time, not necessarily preprocessor. Just not a run-time error.

EDIT2: the code assumes that wchar_t is 2 bytes. I want a compilation error if it's accidentally compiled with 4-byte wchar's.

share|improve this question
Compile-time assert? Or preprocessor-time assert? – Nawaz Dec 5 '11 at 16:27
How is the compiler supposed to know the size of a complex structure at the level of a preprocessor? There are probably some that could manage it if they want, but it seems definitely outside the scope of a #if. – Mark Ransom Dec 5 '11 at 16:27
It is better if you tell us why you want this. Because in this form you wouldn't get answer which could solve this. Preprocessor cannot evaluate sizeof. It is just text-replacement thing. – Nawaz Dec 5 '11 at 16:29
If an error is enough, see… for a solution valid for C and C++, if you want to do more complex handling, I agree with Mark, the pp can't have the needed information excepted in special cases. – AProgrammer Dec 5 '11 at 16:35
@AProgrammer: the negative-size array trick sounds the neatest. Make an answer so that I can a +1. – Seva Alekseyev Dec 5 '11 at 16:55
up vote 4 down vote accepted

You have two options:

a) static_assert of C++11


I would prefer the first one.


The preprocessor is not really part of the language, as the name says it pre-processes a file, it has no knowledge of the language, so it does not know sizeof.

You could use some template to do some compile time code generation, for example:

template <typename T, bool x = sizeof(T) == 4>
class X;

template <typename T>
class X<T, true> {
  T v;
  const char* msg() const {
    return "My size is 4";

template <typename T>
class X<T, false> {
  T v;
  const char* msg() const {
    return "My size is NOT 4";

X<int> a;
X<short> b;
share|improve this answer
It will not work in preprocessor #if. – Nawaz Dec 5 '11 at 16:33

in C++11 you can use static assert

static_assert(sizeof(foo_t) == sizeof(bar_t), "sizes do not match");

If it is pre C++11 then you can use boost static assert macro

BOOST_STATIC_ASSERT_MSG(sizeof(int)==sizeof(unsigned), "sizes do not match");
share|improve this answer
It will not work in preprocessor #if. – Nawaz Dec 5 '11 at 16:30
He asked for compile time, besides does the preprocessor even have that information? – 111111 Dec 5 '11 at 16:35
@Nawaz So what? It will give an error if the size doesn't match, which is exactly what the question asks. – interjay Dec 5 '11 at 16:36
He is actually confused. – Nawaz Dec 5 '11 at 16:36
Nawaz: To be honest it doesn't really matter how it is done, however the less that is done with the preprocessor and the more that is done with standardized language features the better. – 111111 Dec 5 '11 at 16:44

If you can't use C++11 or Boost, then you might find this useful:

template <typename A, typename B>
struct MustBeSameSize {
    int c[sizeof(A)-sizeof(B)];
    int d[sizeof(B)-sizeof(A)];
template struct MustBeSameSize<int, int>;

That will only compile if and only if the sizeof the two types is identical. If they are different like this:

template struct MustBeSameSize<char, int>;

then you'll get a compile-type error, but it won't be a very readable error; maybe something like (g++ 4.4.3):

error: overflow in array dimension

This works because any modern compiler should allow zero-length arrays, but not negative-length arrays.

This works for me, and I think G++ has allowed zero-length arrays for some time. But I'm not sure how portable this is. C99 allows flexible array members (i.e. unspecified size), but I don't think that's directly relevant. In short, if you need something portable, use C++11 or use Boost.

share|improve this answer
You sure about the latter bit? Um, Visual C++ 2010 does not. At least not on function level (i. e. NOT inside a struct). – Seva Alekseyev Dec 5 '11 at 20:52
@SevaAlekseyev, I'm not sure I understand. Are you confirming that VC++2010 does allow zero-length arrays in structs, and also saying that it does not allow them as function parameters? – Aaron McDaid Dec 5 '11 at 21:37
I'm saying that void f(){char x[0];} yields compile error C2466: "cannot allocate an array of constant size 0". – Seva Alekseyev Dec 5 '11 at 22:21
Thanks for that clarification, @SevaAlekseyev. – Aaron McDaid Dec 5 '11 at 22:38
You could add a "+1" to each array size to make it work with everything larger than a char. (assuming no odd-sized fundamental types larger than a char) – AShelly Dec 6 '11 at 3:19

You could define a compile time assert macro like this:

#define COMPILE_TIME_ASSERT( x ) \
  switch ( x ) \
  { \
  case false: \
    break; \
  case ( x ): \
    break; \

If the expression is false, you will get a duplicate case label error.

share|improve this answer

A detection of datatype size mismatch or any const variable bound checks could not be found via compiler at compile time as pre-processor directives are acted upon before compilation. So even if you could detect the mismatch it cant be thrown as compiler error. But assert(),etc could help run-time detection.
PS: THe previous answer i gave does not work with common x86 compilers (but worked with an ARM compilers).

share|improve this answer
This appears to be total nonsense. Neither GCC 4.9 nor Visual Studio 2012 is aware of any #pragma error. And, even if they were, for this to work expr would have to be constexpr or otherwise determinable at compile-time and, without being able to guarantee that in your source code, your compilation would simply always fail. I suspect that, in the compilers that actually have #pragma error (which are those?), this does not do what you say it does. – PreferenceBean Dec 5 '14 at 10:43

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