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I am attempting to learn more about C and its arcane hidden powers, and I attempted to make a sample struct containing a pointer to a void, intended to use as array. EDIT: Important note: This is for raw C code.

Let's say I have this struct.

    typedef struct mystruct {
        unsigned char foo;
        unsigned int max;
        enum data_t type;
        void* data;

    } mystruct;

I want data to hold max of either unsigned chars, unsigned short ints, and unsigned long ints, the data_t enum contains values for those 3 cases.

    enum Grid_t {gi8, gi16, gi32}; //For 8, 16 and 32 bit uints.

Then I have this function that initializes and allocates one of this structs, and is supposed to return a pointer to the new struct.

    mystruct* new(unsigned char foo, unsigned int bar, long value) {
        mystruct* new;
        new = malloc(sizeof(mystruct)); //Allocate space for the struct.
        assert(new != NULL);
        new->foo = foo;
        new->max = bar;
        int i;
        switch(type){
            case gi8: default:
                new->data = (unsigned char *)calloc(new->max, sizeof(unsigned char));
                assert(new->data != NULL);
                for(i = 0; i < new->max; i++){
                    *((unsigned char*)new->data + i) = (unsigned char)value;
                    //Can I do anything with the format new->data[n]? I can't seem
                    //to use the [] shortcut to point to members in this case!
                }
            break;
        }
        return new;
    }

The compiler returns no warnings, but I am not too sure about this method. Is it a legitimate way to use pointers?

Is there a better way©?

I missed calling it. like mystruct* P; P = new(0,50,1024);

Unions are interesting but not what I wanted. Since I will have to approach every specific case individually anyway, casting seems as good as an union. I specifically wanted to have much larger 8-bit arrays than 32-bits arrays, so an union doesn't seem to help. For that I'd make it just an array of longs :P

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To answer the question in your comments, you can't use [] because it's illegal to dereference a void pointer. If you use a void pointer then you need that switch statement around every single dereference so that you can cast the pointer to the correct type at runtime. –  Brian Gordon Aug 4 '11 at 19:23
    
That was my intention actually. –  roger_rales Aug 4 '11 at 19:33
    
your code is only C99, not "raw C". "raw C" is C89. your code doesnt working, in "switch(type)" "type" is undefined. –  user411313 Aug 4 '11 at 19:57
    
@user4 That was a typo when doing the mockup in the post, not in the actual code. And it was spotted before. –  roger_rales Aug 4 '11 at 23:06

4 Answers 4

up vote 0 down vote accepted

Is type supposed to be an argument to the function? (Don't name this function or any variable new or any C++ programmer who tries to use it will hunt you down)

If you want to use array indices, you can use a temporary pointer like this:

unsigned char *cdata = (unsigned char *)new->data;
cdata[i] = value;

I don't really see a problem with your approach. If you expect a particular size (which I think you do given the name gi8 etc.) I would suggest including stdint.h and using the typedefs uint8_t, uint16_t, and uint32_t.

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Sorry, I omitted that when I edited the function for posting. Type is in fact an argument in the full snippet, my bad! I see about the temporary pointer, I will probably like using that approach (makes casting more readable IMO). Just for the record, is there any way to use the foo->bar[0] syntax? –  roger_rales Aug 4 '11 at 19:26
    
As other posters have written, a union can do this. You could have ptr_to_mystruct->chars[max-1] –  mkb Aug 4 '11 at 19:29

No, you cannot dereference a void* pointer, it is forbidden by the C language standard. You have to cast it to a concrete pointer type before doing so.

As an alternative, depending on your needs, you can also use a union in your structure instead of a void*:

typedef struct mystruct {
    unsigned char foo;
    unsigned int max;
    enum data_t type;
    union {
        unsigned char *uc;
        unsigned short *us;
        unsigned int *ui;
    } data;
} mystruct;

At any given time, only one of data.uc, data.us, or data.ui is valid, as they all occupy the same space in memory. Then, you can use the appropriate member to get at your data array without having to cast from void*.

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What about

typedef struct mystruct 
{
    unsigned char foo;
    unsigned int max;
    enum data_t type;
    union
    {
        unsigned char *chars;
        unsigned short *shortints;
        unsigned long *longints; 
    };
} mystruct;

That way, there is no need to cast at all. Just use data_t to determine which of the pointers you want to access.

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Yes, this would work too. Dangerous, but C assumes you know what you're doing. –  mkb Aug 4 '11 at 19:27
    
I read a bit about unions...does it use as much memory as the bigger element (long) or to the biggest allocated element? (so if I assign 255, does it count as long in memory storage?). (I assume the former, but just in case) –  roger_rales Aug 4 '11 at 19:31
    
@roger They're all the same size in this case because they're pointers, but in general yes unions take up as much space as their largest member. –  Brian Gordon Aug 4 '11 at 19:34
    
@roger_rales: It uses the size of the largest pointer. Usually, pointers are all the same size. Of course alignment plays a role, but they are probably aligned the same. –  Rudy Velthuis Aug 4 '11 at 19:43
    
@mkb: probably not more dangerous than casting. There, the compiler also assumes you know what you are doing. ;-) –  Rudy Velthuis Aug 4 '11 at 19:46

A pointer is merely an address in the memory space. You can choose to interpret it however you wish. Review union for more information on how you can interpret the same memory location in multiple ways.

casting between pointer types is common in C and C++, and the use of void* implies that you dont want users to accidentally dereference (dereferencing a void* will cause an error, but dereferencing the same pointer when cast to int* will not)

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