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What's the best way to achieve compile time static asserts in C (not C++), with particular emphasis on GCC?

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7 Answers 7

up vote 31 down vote accepted

C-1x adds the _Static_assert keyword.

This seems to be implemented in gcc-4.6:

_Static_assert (0, "assert1"); /* { dg-error "static assertion failed: \"assert1\"" } */

The first slot needs to be an integral constant expression. The second slot is a constant string literal which can be long (_Static_assert(0, L"assertion of doom!")).

I should note that this is also implemented in recent versions of clang.

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[...seems to be implemented by gcc, by clang...] You can be more assertive that that ;-) _Static_assert is part of the C11 standard and any compiler that supports C11, will have it. – Blue Moon Oct 12 '14 at 20:30
Can this be used at file scope (outside any function)? Because I get error: expected declaration specifiers or '...' before 'sizeof' for line static_assert( sizeof(int) == sizeof(long int), "Error!); (I am using C not C++ by the way) – user10607 Nov 21 '14 at 6:25
@user10607 I'm surprised this doesn't work.. Wait, you're missing a quote at the end of your error string. Put that in and get back. This works for me on gcc-4.9: _Static_assert( sizeof(int) == sizeof(long int), "Error!"); On my macine I get the error. – emsr Nov 21 '14 at 14:04
I have gcc 4.8.2 on Ubuntu. The missing quote was a comment typo (I had it in code). This is the first line in a file after a couple of header includes. The compiler gives me two exact same errors: error: expected declaration specifiers or '...' before 'sizeof' AND error: expected declaration specifiers or '...' before string constant (he is referring to the "Error!"string) (also: I am compiling with -std=c11. When putting the declaration inside a function all works well (fails and succeeds as expected)) – user10607 Nov 21 '14 at 14:20
@user10607 I also had to specify -std=gnu11 on the command line. I'm really surprised there'd be a difference between 4.8 and 4.8. I have a source with just the one line. I also used the C standard _Static_assert not the C++ish static_assert. You need to `#include <assert.h> to get the static_assert macro. – emsr Nov 21 '14 at 14:43

This works in function and non-function scope (but not inside structs,unions).

#define STATIC_ASSERT(COND,MSG) typedef char static_assertion_##MSG[(COND)?1:-1]


int main()
  1. If the compile time assertion could not be matched, then an almost intelligible message is generated by GCC sas.c:4: error: size of array ‘static_assertion_this_should_be_true’ is negative

  2. The macro could or should be changed to generate a unique name for the typedef (i.e. concatenate __LINE__ at the end of the static_assert_... name)

  3. Instead of a ternary, this could be used as well #define STATIC_ASSERT(COND,MSG) typedef char static_assertion_##MSG[2*(!!(COND))-1] which happens to work even on the rusty olde cc65 (for the 6502 cpu) compiler.

UPDATE: For completeness sake, here's the version with `LINE

#define STATIC_ASSERT(COND,MSG) typedef char static_assertion_##MSG[(!!(COND))*2-1]
// token pasting madness:
#define COMPILE_TIME_ASSERT3(X,L) STATIC_ASSERT(X,static_assertion_at_line_##L)

int main()

UPDATE2: GCC specific code

GCC 4.3 (I guess) introduced the "error" and "warning" function attributes. If a call to a function with that attribute could not be eliminated through dead code elimination (or other measures) then an error or warning is generated. This can be used to make compile time asserts with user defined failure descriptions. It remains to determine how they can be used in namespace scope without resorting to a dummy function:

#define CTC(X) ({ extern int __attribute__((error("assertion failure: '" #X "' not true"))) compile_time_check(); ((X)?0:compile_time_check()),0; })

// never to be called.    
static void my_constraints()

int main()

And this is how it looks like:

$ gcc-mp-4.5 -m32 sas.c 
sas.c: In function 'myc':
sas.c:7:1: error: call to 'compile_time_check' declared with attribute error: assertion failure: `sizeof(int)==4` not true
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In Visual Studio it just says "Negative subscript", not mentioning the variable name... – szx Apr 25 '12 at 15:20
Nordic Mainframe - option 3 in your answer does not work on clang. – Elazar Apr 17 '13 at 7:19
Regarding the last (GCC 4.3+-specific) solution: This is very powerful, as it can check anything the optimizer can figure out, but it fails if optimization is not enabled. The bare minimum optimization level (-Og) may often be enough for this to work, however, and should not interfere with debugging. One may consider making the static assert a no-op or runtime assert if __OPTIMIZE__ (and __GNUC__) is not defined. – Søren Løvborg Sep 17 '14 at 16:39


I know the question explicitly mentions gcc, but just for completeness here is a tweak for Microsoft compilers.

Using the negatively sized array typedef does not persuade cl to spit out a decent error. It just says error C2118: negative subscript. A zero-width bitfield fares better in this respect. Since this involves typedeffing a struct, we really need to use unique type names. __LINE__ does not cut the mustard — it is possible to have a COMPILE_TIME_ASSERT() on the same line in a header and a source file, and your compile will break. __COUNTER__ comes to the rescue (and it has been in gcc since 4.3).

#define CTASTR2(pre,post) pre ## post
#define CTASTR(pre,post) CTASTR2(pre,post)
#define STATIC_ASSERT(cond,msg) \
    typedef struct { int CTASTR(static_assertion_failed_,msg) : !!(cond); } \


STATIC_ASSERT(sizeof(long)==7, use_another_compiler_luke)

under cl gives:

error C2149: 'static_assertion_failed_use_another_compiler_luke' : named bit field cannot have zero width

Gcc also gives an intelligible message:

error: zero width for bit-field ‘static_assertion_failed_use_another_compiler_luke’

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From Wikipedia:

#define COMPILE_TIME_ASSERT(pred) switch(0){case 0:case pred:;}

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It doesn't work outside of functions. – Matt Joiner Aug 2 '10 at 6:42
It would be better if you linked to the true source: – Matt Joiner Aug 2 '10 at 6:43
It does not work in gcc 4.6 - it says "case label does not reduce to an integer constant". It has a point. – Liosan Dec 12 '13 at 8:47
you've both probably moved waaay on by now, but I ended up writing my own (see my answer). I used your link @MattJoiner to aid me – Hashbrown Sep 16 '14 at 16:51
And if you can be bothered, let me know if it works for you, @Liosan. I've only just started delving into C++ so I've come late to the party – Hashbrown Sep 16 '14 at 16:51

For those of you wanting something really basic and portable but don't have access to C++11 features, I've written just the thing.
Use STATIC_ASSERT normally (you can write it twice in the same function if you want) and use GLOBAL_STATIC_ASSERT outside of functions with a unique phrase as the first parameter.

#if defined(static_assert)
#   define STATIC_ASSERT static_assert
#   define GLOBAL_STATIC_ASSERT(a, b, c) static_assert(b, c)
#   define STATIC_ASSERT(pred, explanation); {char assert[1/(pred)];(void)assert;}
#   define GLOBAL_STATIC_ASSERT(unique, pred, explanation); namespace ASSERTATION {char unique[1/(pred)];}

GLOBAL_STATIC_ASSERT(second, 1, "Hi");

int main(int c, char** v) {
    (void)c; (void)v;
    STATIC_ASSERT(1 > 0, "yo");
    STATIC_ASSERT(1 > 0, "yo");
//    STATIC_ASSERT(1 > 2, "yo"); //would compile until you uncomment this one
    return 0;

First it checks if you have the real assert, which you would definitely want to be using if it's available.
If you don't it asserts by getting your predicate, and dividing it by itself. This does two things.
If it's zero, id est, the assertion has failed, it will cause a divide by zero error (the arithmetic is forced because it is trying to declare an array).
If it is not zero, it normalises the array size to 1. So if the assertion passed, you wouldn't want it to fail anyway because your predicate evaluated to -1 (invalid), or be 232442 (massive waste of space, IDK if it would be optimised out).
For STATIC_ASSERT it is wrapped in braces, this makes it a block, which scopes the variable assert, meaning you can write it many times.
It also casts it to void, which is a known way to get rid of unused variable warnings.
For GLOBAL_STATIC_ASSERT, instead of being in a code block, it generates a namespace. Namespaces are allowed outside of functions. A unique identifier is required to stop any conflicting definitions if you use this one more than once.

Worked for me on GCC and VS'12 C++

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The classic way is using an array:

char int_is_4_bytes_assertion[sizeof(int) == 4 ? 1 : -1];

It works because if the assertion is true the array has size 1 and it is valid, but if it is false the size of -1 gives a compilation error.

Most compilers will show the name of the variable and point to the right part of the code where you can leave eventual comments about the assertion.

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This works, with "remove unused" option set. I may use one global function to check global parameters.

#ifndef __sassert_h__
#define __sassert_h__

#define _cat(x, y) x##y

#define _sassert(exp, ln) \
extern void _cat(ASSERT_WARNING_, ln)(void); \
if(!(exp)) \
{ \
    _cat(ASSERT_WARNING_, ln)(); \

#define sassert(exp) _sassert(exp, __LINE__)

#endif //__sassert_h__

static bool tab_req_set_relay(char *p_packet)
    sassert(TXB_TX_PKT_SIZE < 3000000);
    sassert(TXB_TX_PKT_SIZE >= 3000000);

Building target: ntank_app.elf
Invoking: Cross ARM C Linker
arm-none-eabi-gcc ...
../Sources/host_if/tab_if.c:637: undefined reference to `ASSERT_WARNING_637'
collect2: error: ld returned 1 exit status
make: *** [ntank_app.elf] Error 1
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If it works at all, it would only do so in the source of an executable. – Coder Aug 3 at 22:30

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