How can I print the result of sizeof() at compile time in C?

For now I am using a static assert (home brewed based on other web resources) to compare the sizeof() result to various constants. While this works... it is far from elegant or fast. I can also create an instance of the variable/struct and look in the map file but this is also less elegant and fast than a direct call/command/operator. Further, this is an embedded project using multiple cross-compilers... so building and loading a sample program to the target and then reading out a value is even more of a hassle than either of the above.

In my case (old GCC), #warning sizeof(MyStruct) does not actually interpret sizeof() before printing the warning.

  • What is the motivation? – Ed Heal Jan 7 '14 at 18:59
  • To know the size of a multi-tiered struct without digging into the map file. – altendky Jan 7 '14 at 19:01
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    Well - the #warning statement is handled by the preprocessor before the proper compiler has even started - so I don't think this is possible. I guess writing a small test program, which is invoked as custom step in the build process, is a solution. Good luck. – user422005 Jan 7 '14 at 19:43
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    What do you mean by "far from ... fast"? Static assertions are tested at compile-time (and so is sizeof evaluated at compile-time). – mafso Jan 7 '14 at 20:03
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    If you have a C++ compiler for your target, you might check it using stackoverflow.com/questions/2008398/… – nos Jan 7 '14 at 20:57

I was mucking around looking for similar functionality when I stumbled on this:

Is it possible to print out the size of a C++ class at compile-time?

Which gave me the idea for this:

char (*__kaboom)[sizeof( YourTypeHere )] = 1;

Which results in the following warning in VS2015:

warning C4047: 'initializing': 'DWORD (*)[88]' differs in levels of indirection from 'int'

where 88 in this case would be the size you're looking for.

Super hacky, but it does the trick. Probably a couple years too late, but hopefully this will be useful to someone.

I haven't had a chance to try with gcc or clang yet, but I'll try to confirm whether or not it works if someone doesn't get to it before me.

Edit: Works out of the box for clang 3.6

The only trick I could get to work for GCC was abusing -Wformat and having the macro define a function like the following:

void kaboom_print( void )
    printf( "%d", __kaboom );

Which will give you a warning like:

...blah blah blah... argument 2 has type 'char (*)[88]'

Slightly more gross than the original suggestion, but maybe someone who knows gcc a bit better can think of a better warning to abuse.

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    Visiting this yet a year later, I found the above solution for gcc no longer works (gcc 4.4.2). After a bit more searching, I found that stackoverflow.com/questions/21001044/… (using an array that is to large, with -Wframe-larger-than) still works (you have to scroll down to the accepted answer, as it's not on top for some reason...). – blackghost Mar 28 '17 at 13:47
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    I had luck with a recent Clang version, but your link also worked so double good. – Michael Dorgan Jun 23 '17 at 18:18
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    I like this solution! Anyway, can someone please remove the last quotation mark in the printf in the kaboom_print function? This just gives me an additional error which I am not interested in. – ola1olsson Jan 4 '18 at 15:26
  • Great solution - though it requires compiling as C++ with gcc. – jws Nov 21 '18 at 1:49
  • This actually saved me some time today. Only strange thing is, a static assert fails due to size not being X... Doing this to check what the compiler thinks the size is... give me X :P – inquam Oct 12 at 13:26

All you need is a trick that causes the compiler to complain about some compile time integer values being used incorrectly, like duplicated case constant:

struct X {
    int a,b;
    int c[10];
int _tmain(int argc, _TCHAR* argv[])
    int dummy;

    switch (dummy) {
    case sizeof(X):
    case sizeof(X):
    return 0;

Compilation result:

 ------ Build started: Project: cpptest, Configuration: Debug Win32 ------
 cpptest.cpp c:\work\cpptest\cpptest\cpptest.cpp(29): error C2196: case value '48' already used
 ========== Build: 0 succeeded, 1 failed, 0 up-to-date, 0 skipped ==========

So sizeof the struct X is 48

  • Unfortunately doesn't work in my older version of gcc 4.2.0, it just says 'duplicate case value' without printing the value. – eresonance Mar 9 '17 at 13:30
  • some general methods to print calculated int values during compilation: stackoverflow.com/questions/28852574/… – JavaMan Jun 8 '17 at 8:46
  • this was the only one that worked with gcc in c for me – Michael Oct 15 '18 at 17:28

One more way (that actually works):

char __foo[sizeof(MyStruct) + 1] = {[sizeof(MyStruct)] = ""};

Works with old'ish gcc 5.x. Yields an error like this:

a.c:8:54: error: initializer element is not computable at load time
a.c:8:54: note: (near initialization for 'a[8]')

p.s. obviously, this one is (very) gcc specific. All other methods weren't working for me.

  • 3
    You don't even have to specify the size for the array: char __foo[] = {[sizeof(MyStruct)] = ""}; – Garogolun Dec 20 '18 at 15:01

The following way, which works in GCC, Clang, MSVC and more, even in older versions, is based on failed conversion of a function parameter from pointer to array to a scalar type. The compilers do print size of the array, so you can get the value from the output. Works both in C and C++ mode.

Example code to find out sizeof(long) (play with it online):

char checker(int);
char checkSizeOfInt[sizeof(long)]={checker(&checkSizeOfInt)};

Examples of relevant output:

  • GCC 4.4.7

<source>:1: note: expected 'int' but argument is of type 'char (*)[8]'

  • clang 3.0.0

<source>:1:6: note: candidate function not viable: no known conversion from 'char (*)[8]' to 'int' for 1st argument;

  • MSVC 19.14

<source>(2): warning C4047: 'function': 'int' differs in levels of indirection from 'char (*)[4]'


I stumbled upon a solution similar to Bakhazard's great solution, and this one produces a much less verbose warning, so you may find it useful:

char (*__fail)(void)[sizeof(uint64_t)] = 1;

This produces the error message

Function cannot return array type 'char [8]'

This was tested with the latest version of clang(1).

  • FYI This does not work on gcc 5.4 – Lee Jenkins Mar 12 at 18:00

My gcc C compiler refuses to print the size using any of the above solutions. I inverted the logic to inject compiler warnings for what size it is not.

enum e
    X = sizeof(struct mystruct)

void foo()
    static enum e ev;

    switch (ev)
    case 0:
    case 4:
    case 8:
    case 12:
    case 16:
    case 20:

Then I have to look through the warnings for the missing number.

warning: case value '0' not in enumerated type 'e' [-Wswitch]
warning: case value '4' not in enumerated type 'e' [-Wswitch]
warning: case value '12' not in enumerated type 'e' [-Wswitch]
warning: case value '16' not in enumerated type 'e' [-Wswitch]
warning: case value '20' not in enumerated type 'e' [-Wswitch]

So then my struct size is 8.

My packing is 4.

Meh... it's an option.

  • Gcc complains about unhandled cases in switches. So if you had some invalid entry like case 1: and no default, gcc should complain case 8 not handled. – Atilla Filiz Jul 9 at 13:44

Though this isn't exactly at compile time, it is before runtime, so it could still be relevant for some people.

You can define an array like so:

uint8_t __some_distinct_name[sizeof(YourTypeHere)];

And then, after compilation, get the size from the object file:

$ nm -td -S your_object_file |       # list symbols and their sizes, in decimal
  grep ' __some_distinct_name$' |    # select the right one
  cut -d' ' -f2 |                    # grab the size field
  xargs printf "Your type is %d B\n" # print

@jws nice idea!. Howewer, sizeof(xxx) is a constant expression (except VLA, https://en.cppreference.com/w/c/language/sizeof), so the sizeof operator should work even in the case selection:

enum e1 {dummy=-1};
enum e1 ev;
switch (ev) {
    case sizeof(myType):;

.. it work in my GCC: "..\WinThreads.c:18:9: warning: case value '4' not in enumerated type 'enum e1' [-Wswitch] "


You can't do this, not with structures. The preprocessor is invoked before compilation takes place, so there isn't even the concept of structure; you can't evaluate the size of something that doesn't exist / wasn't defined. The preprocessor does tokenize a translation unit, but it does so only for the purpose of locating macro invocation.

The closest thing you can have is to rely on some implementation-defined macros that evaluate to the size of built-in types. In gcc, you can find those with:

gcc -dM -E - </dev/null | grep -i size

Which in my system printed:

#define __SIZE_MAX__ 18446744073709551615UL
#define __SIZEOF_INT__ 4
#define __SIZEOF_POINTER__ 8
#define __SIZEOF_LONG__ 8
#define __SIZEOF_LONG_DOUBLE__ 16
#define __SIZEOF_SIZE_T__ 8
#define __SIZEOF_WINT_T__ 4
#define __SIZE_TYPE__ long unsigned int
#define __SIZEOF_PTRDIFF_T__ 8
#define __SIZEOF_FLOAT__ 4
#define __SIZEOF_SHORT__ 2
#define __SIZEOF_INT128__ 16
#define __SIZEOF_WCHAR_T__ 4
#define __SIZEOF_DOUBLE__ 8
#define __SIZEOF_LONG_LONG__ 8

There is really nothing you can do to know the size of a custom struct without writing a program and executing it.

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    I already have a static assert macro which successfully triggers a compile time error based on a sizeof(MyStruct) call so it is false that a program must be executed to know the size of a custom struct. The only thing I am missing is a compiler (as you point out, not a precompiler) command to print the value. – altendky Jan 7 '14 at 20:00
  • I didn't say a program must be executed to know the size of a custom struct - of course the compiler knows it at some point. What I said is that you have no way of asking the compiler to dump it during compilation, so your only choice is to execute a program that does that. Although you can compare it to hard-coded values, there is no instruction you can give it to print the size. – Filipe Gonçalves Jan 7 '14 at 20:04
  • "There is really nothing you can do to know the size of a custom struct without writing a program and executing it."??? how did you know for sure? See my answer – JavaMan May 9 '16 at 10:45

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