Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

QUESTION ANSWERED AT END OF PAGE. FULLY WORKING CODE.

Hello, I would like to do in C what I have asked in the title, however, I don't know how to accomplish it. I have done this in C++ thanks to templates but à la C. Here is the fully functional C++ code: List.h (simple database)

*I wonder now if with void pointers I can emulate the code. The problem is that I've seen a link stating that void * should be avoided because it can cause more trouble than it can solve.

Basically it is a "smart-array" that stores pointers to the variables themselves. If I know the size of each pointer and the size of each structure pointed to, simple mallocs and reallocs should do right?

typedef struct
{
  void **list;

  // internal
  int last_item_index;
  size_t element_size; // size of each pointer
  int elements;        // number of currently allocated elements
  int total_size;      // >= #elements so that we don't have to always call malloc
  int tweak_request_size; // each time the list grows we add this # of elements

} List;
// a shot at an addCopy function
// it deepcopies the object you pass in
List_addCopy(List *db, void *ptr_to_new_element)
{
  ... // grow **list
  // alloc and copy new element
  db->list[db->last_item_index+1] = malloc(element_size); // WORKS?
  // HOW TO COPY THE ELEMENT TO HERE IF IT IS A STRUCTURE FOR INSTANCE???
  ...
}

or
// a shot at an assign function 
// (allocate the elements yourself then pass the pointer to the List)
List_assign(List *db, void *ptr_to_new_element)
{
  db->List = realloc(db->List, element_size*(elements+tweak_request_size));
  db->List[db->last_item_index+1] = ptr_to_new_element;
}

// Usage example

List db; // our database
struct funky *now = (funky*)malloc(sizeof(funky));

funky->soul = JamesBrown;

List_addCopy(db, funky);

if (list[0]->soul == JamesBrown)
  puts("We did It! :D");

If I alloc everything outside and just pass the pointers to the List I guess the only problem is the void **.

Is List_add possible? Only with callbacks that do the alloc of the element and / or copy it?

Is List_assign possible? I don't want to have a lot of work and end up with unreliable software.

Thanks a lot and sorry for the convolution in the writing :p

share|improve this question
    
If you know the size of the element, and it's a simple, flat data structure (no pointers to anything that also needs to be copied), just memcpy it over. –  Anon. Jan 26 '11 at 1:30
    
@Pemdas: I believe I did mention that. –  Anon. Jan 26 '11 at 2:33
    
And that won't pose a problem? Using void * * ? I've seen a thread saying that void * * should be avoided as results can be mixed: c-faq.com/ptrs/genericpp.html Thanks –  Alberto Jan 26 '11 at 11:40

2 Answers 2

up vote 1 down vote accepted

You can avoid void* with something like this:

#include <stdio.h>
#include <stdlib.h>

#define List(T) \
    typedef struct { \
        T** items; \
        int count;  \
    } List_ ## T ;\
    \
    List_ ## T * List_ ## T ## _New() { \
        List_ ## T * list = (List_ ## T *) malloc(sizeof(List_ ## T)); \
        list->count = 0; \
        return list; \
    } \
    \
    void List_ ## T ## _Add(List_ ## T *list, T * data) { \
        printf("%d\n", ++list->count); \
    } \
    void List_ ## T ## _Del(List_ ## T *list, int index) { \
        printf("%d\n", --list->count); \
    }

/* define just one list per type */
List(int);
List(double);

int main()
{
    int a, b, c;
    double d, e;
    List_int *l1;
    List_double *l2;

    l1 = List_int_New();
    List_int_Add(l1, &a);
    List_int_Add(l1, &b);
    List_int_Add(l1, &c);
    List_int_Del(l1, 0);
    List_int_Del(l1, 0);
    List_int_Del(l1, 0);

    l2 = List_double_New();
    List_double_Add(l2, &d);
    List_double_Add(l2, &e);
    List_double_Del(l2, 0);
    List_double_Del(l2, 0);

    return 0;
}

That's a poor man's template =)

God bless

share|improve this answer
    
Thanks! I got the idea, it seems to be very easy to use, just a pain to implement, but I guess it's fine since you only have to do it once ;) –  Alberto Jan 26 '11 at 16:11
    
I don't think it's that hard, just some extra ## and \ . Debugging it and tracking compile-time errors can be hard, I think it's better to implement it like List_int and test it first, then make it a "template". Another problem with this approach is that the list type parameter cannot be a pointer, as when generating the procedure names the compiler will not like names containing *, but this can be worked around as I did, by making the pointer implicit. –  Trinidad Jan 26 '11 at 16:41

FULLY WORKING CODE HERE

Hi, I've used Trinidad's method since I wasn't sure void ** would work and it's pretty nice xD

It works perfectly but it is complicated to avoid circular dependencies (including a header in another that results in "multiple reference") without encumbering too much the interface, so I gave up that approach although I've uploaded it too @SourceForge, then I made everything again, this time with void pointers and it works perfectly ;) No worrying about including a header twice, etc. Just works.

Btw, here's the link, use it at your liking: List - the smart && generic container

In any doubt use the help forums, when I have time I'll document it, but for now I'm using it for my projects.

Good luck!

share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.