2

I have this code for example.

#include <stdlib.h>
#include <stdio.h>
#define array_size 3

typedef struct {
    int array[array_size];
} TEST;

void printout(TEST *p, int element) {
    printf("element: %i\n", p->array[element]);
}

int main(void) {
    TEST *p;
    p = malloc(sizeof(TEST));
    p->array[0] = 5;
    printout(p, 0);

    return 0;
} 

But I'd like to assign "array_size" based on user input.

If I try to do so, the compiler says "variably modified ‘array_size’ at file scope". So, am I right that the only way to do what I want is to move everything to main()..?

It works just fine, but keeping structs and functions declarations in file scope seems, you know, neat.

0

2 Answers 2

4

The simplest approach is to just allocate the memory dynamically:

typedef struct {
    int *array;
    size_t size;
} TEST;

int main() {
    size_t elem_count = /* from user input */
    TEST p;
    p->array = malloc(elem_count * sizeof int);
    if(!p->array)
        return -1;

    p->size = elem_count;
    /* ... */
    free(p->array);
}
4
  • if you want to do it like this the array definition should be int* array, now you're assigning a malloc to an array which is wrong; or you should put int array[]; at the end of the struct which is allowed in later versions of the standard (C99 I think) but then you should malloc the whole struct in the correct way, not just array.
    – wich
    Sep 11, 2012 at 6:05
  • @wich: Yeah, that was a typo which I fixed before your comment (copied the OP's definition and forgot to change it). There's no reason I can see to use a flexible array here, just makes things more complicated. Sep 11, 2012 at 6:06
  • Awesome, I've tested it out and it indeed allows me to do what I wanted. Thanks. But I believe you've meant "TEST *p;" and "...sizeof(int)", code in post doesn't compile. edit: also, I had to add "p = malloc(sizeof(TEST));" after "TEST *p" to make it work.
    – Heinlein
    Sep 11, 2012 at 6:29
  • @Heinlein: I didn't write TEST *p;, I wrote TEST p;, i.e., I didn't dynamically allocate a TEST structure. If you need to then you can, but I saw no reason to in your example. Sep 11, 2012 at 17:00
2

You can indeed not define a variable length array at file scope, you can however define a pointer at file scope and malloc it, just define a global pointer int* p = NULL; (lose the whole TEST stuff) and p = malloc(sizeof(int) * input_size); simply access with p[x].

For completeness, you can also use the so called flexible array member defined in C99:

From ISO/IEC 9899:1999, Section 6.7.2.1, paragraph 16:

As a special case, the last element of a structure with more than one named member may have an incomplete array type; this is called a flexible array member.

typedef struct {
    other_type other_data
    int array[];
} TEST;

...

TEST *p = malloc(sizeof(TEST) + sizeof(int) * input_size);

Though note that this is limited to a single member, you could make an array of structs if you would otherwise have multiple arrays of different types but the same length.

This was originally intended mostly for data with headers such as ofter encountered in file and/or network I/O.

1
  • >You can indeed not define a variable array at file scope Thx, that what I wanted to hear. Pointer solution will not work in my case - I've simplified the example, in my code I need a complete struct. But I'll keep it in mind.
    – Heinlein
    Sep 11, 2012 at 6:07

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