I get an error on line 6 (initialize my_foo to foo_init) of the following program and I'm not sure I understand why.

typedef struct foo_t {
    int a, b, c;
} foo_t;

const foo_t foo_init = { 1, 2, 3 };
foo_t my_foo = foo_init;

int main()
    return 0;

Keep in mind this is a simplified version of a larger, multi-file project I'm working on. The goal was to have a single constant in the object file, that multiple files could use to initialize a state structure. Since it's an embedded target with limited resources and the struct isn't that small, I don't want multiple copies of the source. I'd prefer not to use:

#define foo_init { 1, 2, 3 }

I'm also trying to write portable code, so I need a solution that's valid C89 or C99.

Does this have to do with the ORGs in an object file? That initialized variables go into one ORG and are initialized by copying the contents of a second ORG?

Maybe I'll just need to change my tactic, and have an initializing function do all of the copies at startup. Unless there are other ideas out there?


In C language objects with static storage duration have to be initialized with constant expressions or with aggregate initializers containing constant expressions.

A "large" object is never a constant expression in C, even if the object is declared as const.

Moreover, in C language the term "constant" refers to literal constants (like 1, 'a', 0xFF and so on), enum members and results of such operators as sizeof. Const-qualified objects (of any type) are not constants in C language terminology. They cannot be used in initializers of objects with static storage duration, regardless of their type.

For example, this is NOT a constant

const int N = 5; /* `N` is not a constant in C */

The above N would be a constant in C++, but it is not a constant in C. So, if you try doing

static int j = N; /* ERROR */

you will get the same error: an attempt to initialize a static object with a non-constant.

This is the reason why in C language we predominantly use #define to declare named constants, and also resort to #define to create named aggregate initializers.

  • 1
    +5 for the nice explanation, but surprisingly this program compiles fine on ideone: ideone.com/lx4Xed. Is it compiler bug or compiler extension? Thanks – Destructor Jun 21 '15 at 6:25
  • 2
    @meet: I don't know what combination of compiler options ideone uses under the hood, but their results are often weird beyond description. I tried compiling this code on Coliru (coliru.stacked-crooked.com/a/daae3ce4035f5c8b) and got the expected error for it regardless of what C language dialect setting I used. I don's see anything like that listed on GCC's web site as a C language extension. In other words, I have no idea how and why it compiles in ideone. Even if it compiles as a language extension, it should still produce a diagnostic message in C. – AnT Jun 21 '15 at 6:38
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    enum { N = 5 }; is an under-appreciated way of declaring constants without having to resort to #define. – M.M Dec 10 '15 at 2:51
  • 2
    @PravasiMeet "ideone" simply does not display many of the diagnostic messages that the compiler produces, so it is not a very good site to use for determining if code is correct or not. – M.M Dec 10 '15 at 2:51
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    I've found out something interesting. if ptr is a static pointer defined inside a function, this is error: static int* ptr = malloc(sizeof(int)*5); but this is NOT an error: static int* ptr; ptr = malloc(sizeof(int)*5); :D – aderchox Jan 5 at 19:33

It's a limitation of the language. In section 6.7.8/4:

All the expressions in an initializer for an object that has static storage duration shall be constant expressions or string literals.

In section 6.6, the spec defines what must considered a constant expression. No where does it state that a const variable must be considered a constant expression. It is legal for a compiler to extend this (6.6/10 - An implementation may accept other forms of constant expressions) but that would limit portability.

If you can change my_foo so it does not have static storage, you would be okay:

int main()
    foo_t my_foo = foo_init;
    return 0;
  • I like that you quoted the spec, but this doesn't help me understand what we're supposed to do or why things are the way they are. – Evan Carroll Aug 23 '18 at 22:30

Just for illustration by compare and contrast The code is from http://www.geeksforgeeks.org/g-fact-80/ /The code fails in gcc and passes in g++/

int initializer(void)
    return 50;

int main()
    int j;
    for (j=0;j<10;j++)
        static int i = initializer();
        /*The variable i is only initialized to one*/
        printf(" value of i = %d ", i);
    return 0;

This is a bit old, but I ran into a similar issue. You can do this if you use a pointer:

#include <stdio.h>
typedef struct foo_t  {
    int a; int b; int c;
} foo_t;
static const foo_t s_FooInit = { .a=1, .b=2, .c=3 };
// or a pointer
static const foo_t *const s_pFooInit = (&(const foo_t){ .a=2, .b=4, .c=6 });
int main (int argc, char **argv) {
    const foo_t *const f1 = &s_FooInit;
    const foo_t *const f2 = s_pFooInit;
    printf("Foo1 = %d, %d, %d\n", f1->a, f1->b, f1->c);
    printf("Foo2 = %d, %d, %d\n", f2->a, f2->b, f2->c);
    return 0;
  • 5
    I don't see a a variable with static storage duration that is initialized by a non-constant here. – Kami Kaze Feb 9 '17 at 10:29

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