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So just for the sake if having ''fun'' I decided to emulate C++ member functions in C using pointer functions. Here is a simple code:

obj.h:

#ifndef OBJ_H
#define OBJ_H

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

struct Obj{
    struct pObjVar* pVar;

    void (*read)(struct Obj*);
    void (*set) (struct Obj*, int);
};

struct Obj* newObj();
void deleteObj(struct Obj** obj);

#endif

obj.c:

#include "obj.h"

void readValue(struct Obj* this_);
void setValue (struct Obj* this_, int mValue_);

struct pObjVar{
    int mValue;
};

struct Obj* newObj(){
    struct Obj* tmp  = (struct Obj*)     malloc(sizeof(struct Obj));
    tmp->pVar        = (struct pObjVar*) malloc(sizeof(struct pObjVar));

    tmp->pVar->mValue = 0;
    tmp->read = readValue;
    tmp->set  = setValue;

    return tmp;
}

void deleteObj(struct Obj **obj){
    free((*obj)->pVar); (*obj)->pVar = NULL;
    free((*obj)); *obj = NULL;
}

void readValue(struct Obj *this_){
    printf("Value = %d\n",this_->pVar->mValue);
}

void setValue(struct Obj *this_, int mValue_){
    this_->pVar->mValue = mValue_;
}

main.c:

#include "obj.h"

int main(void)
{
    struct Obj* a = newObj();
    a->set(a, 10);
    a->read(a);
    deleteObj(&a);

    return 0;
}

Output:

>./a.out
 Value = 10    

In doing this, however, I figured I had to emulate the role of implicit this pointer by explicitly passing it to my member functions. This works fine, I guess, except that it makes the whole thing look weird!

If I wanted to pass the object, why would implement the functions as member functions? The only answer I found to it was maybe in cases where you would want to have a unified interface but various implementations? (something similar to C++ virtual functions?)

What are (if any) some other reasons to emulate member functions? Also, is there any way to get around passing the explicit this_ pointer at all?

EDIT: There was problem in the original code when passing the object. I was using &a by mistake for the read/set functions. You would only need it for the deleteObj if you want to set the pointer to NULL internally.

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You are passing the address of the pointer to the functions, i.e. Obj **. Skip the & in the function calls. –  Joachim Pileborg Mar 20 '12 at 10:26
    
@JoachimPileborg: You are correct. Please see my edit –  GradGuy Mar 20 '12 at 10:38
    
I once had to maintain a legacy project using a similar approach, with a complex inheritance hierarchy, and the added perversion of using opaque typedef'ed int values instead of pointers to structures. Needless to say that it was a nightmare to debug/maintain ! –  SirDarius Mar 20 '12 at 10:44
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2 Answers

up vote 2 down vote accepted

Just another way of writing:

#define member(FUNC, ...) FUNC(this_, ## __VA_ARGS__)
int reader(struct Obj *_this) {
  member(read, a, b, c);
  member(getch);
  return 0;
}

This can be used for implementing interfaces, inheritance and many C++ features, which were implemented like this in C with Classes times. In Linux kernel, file operations are implemented like this. File structure stores pointers to functions, so that each file system can store it's own system call handlers that operate on/with the data in the structure.

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No, there is no way to do this automatically in C. The standard preprocessor is not competent enough to do the transformations.

There is also now way for a function to find out that it was called like a->func(10). Inside the function it is just func(10).

When Bjarne Stroustrup started designing C++, he wrote a special preprocessor/compiler Cfront for this.

In reality, C++ doesn't really store pointers to (non-virtual) functions. It just transforms a->set(10) to something like struct_Obj_set(a, 10) while compiling the code.

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