table of contents
static_assert(3) | Library Functions Manual | static_assert(3) |
NAME¶
static_assert, _Static_assert - fail compilation if assertion is false
LIBRARY¶
Standard C library (libc)
SYNOPSIS¶
#include <assert.h>
void static_assert(scalar constant-expression, const char *msg);
/* Since C23: */ void static_assert(scalar constant-expression);
DESCRIPTION¶
This macro is similar to assert(3), but it works at compile time, generating a compilation error (with an optional message) when the input is false (i.e., compares equal to zero).
If the input is nonzero, no code is emitted.
msg must be a string literal. Since C23, this argument is optional.
There's a keyword, _Static_assert(), that behaves identically, and can be used without including <assert.h>.
RETURN VALUE¶
No value is returned.
VERSIONS¶
In C11, the second argument (msg) was mandatory; since C23, it can be omitted.
STANDARDS¶
C11 and later.
EXAMPLES¶
static_assert() can't be used in some places, like for example at global scope. For that, a macro must_be() can be written in terms of static_assert(). The following program uses the macro to get the size of an array safely.
#include <assert.h> #include <stddef.h> #include <stdint.h> #include <stdio.h> #include <stdlib.h> #include <string.h> /*
* This macro behaves like static_assert(), failing to
* compile if its argument is not true. However, it always
* returns 0, which allows using it everywhere an expression
* can be used.
*/ #define must_be(e) \ ( \
0 * (int) sizeof( \
struct { \
static_assert(e); \
int ISO_C_forbids_a_struct_with_no_members; \
} \
) \ ) #define is_same_type(a, b) \
__builtin_types_compatible_p(typeof(a), typeof(b)) #define is_array(arr) (!is_same_type((arr), &*(arr))) #define must_be_array(arr) must_be(is_array(arr)) #define sizeof_array(arr) (sizeof(arr) + must_be_array(arr)) #define nitems(arr) (sizeof((arr)) / sizeof((arr)[0]) \
+ must_be_array(arr)) int foo[10]; int8_t bar[sizeof_array(foo)]; int main(void) {
for (size_t i = 0; i < nitems(foo); i++) {
foo[i] = i;
}
memcpy(bar, foo, sizeof_array(bar));
for (size_t i = 0; i < nitems(bar); i++) {
printf("%d,", bar[i]);
}
exit(EXIT_SUCCESS); }
SEE ALSO¶
2023-01-26 | Linux man-pages 6.04 |