Why is it dangerous?

Question

I don't understand some topic from book Extreme C on page 300. It's about "multiple inheritance".

typedef struct { ... } a_t;
typedef struct { ... } b_t;

typedef struct {
    a_t a;
    b_t b;
    ...
} c_t;

c_t c_obj;
a_t* a_ptr = (a_ptr*)&c_obj;
b_t* b_ptr = (b_ptr*)&c_obj; //it's the problem
c_t* c_ptr = &c_obj;

Why we should do something like that??

c_t c_obj;
a_t* a_ptr = (a_ptr*)&c_obj;
b_t* b_ptr = (b_ptr*)(&c_obj + sizeof(a_t)); //?Is the address a_ptr the same as address c_obj?
c_t* c_ptr = &c_obj;

Thank you very much for all your help.

Answer 1

Why we should do...?

We should not do this!

First, sizeof a might be wrong to advance the address. If b_t as larger alignment requirements than a_t this will not yield the correct offset.

Second, the expression is wrong:

(&c_obj + sizeof(a_t))

This will take address of c_obj which has type c_t*. Then it will add a multiple of sizeof (c_t) which again points to object of type c_t but with an address that is illegal.

Third: Your casts are all wrong. You need to use name of a type, not a variable.

---

If you want to get address of b, there is a macro in C lib available offsetof:

offsetof(c_t,b) 

evaluates to the offset in bytes of member b inside type c_t. Then you can apply this to your address:

b_ptr=(b_t*)  ((unsigned char*)&c_obj) + offsetof(c_t,b));

The first cast to unsigned char is required to use byte arithmetics.

Of course, there is a much simpler way to do this:

b_ptr=&c_obj.b;

---

Maybe the point of the book was to show that you cannot just use address of a struct and cast it to a pointer to another struct but you have to take care about the location of the members inside that struct. That is correct. But the dirty details were a bit off.

Answer 2

Keep it simple:

c_t c_obj;
a_t* a_ptr = &c_obj.a;
b_t* b_ptr = &c_obj.b;
c_t* c_ptr = &c_obj;

The problem with:

b_t* b_ptr = (b_ptr*)&c_obj;//it's the problem

is that b_ptr ends up pointing to c_obj.a.

The problems with:

b_t* b_ptr = (b_ptr*)(&c_obj + sizeof(a_t));//?Is the address a_ptr the same as address c_obj?

are:

1. You are trying to adjust the pointer by sizeof(a_t) bytes, but pointer arithmetic is scaled by the size of the dereferenced type of the pointer. In this case, the pointer type is c_t* (from the expression &c_obj), and the dereferenced type is c_t, so the pointer is actually being adjusted by sizeof(c_t) * sizeof(a_t) bytes.

2. There may be padding after some of the members of c_t. In particular, there may be padding between the a and b members, so the b member may not be at the offset that you think it is. The offset of b from the start of c_t in bytes can be determined using the expression offsetof(c_t, b).

Answer 3

The address of an object of a structure type is equal to the address of the first member of the structure type.

So using your example

typedef struct {
a_t a;
b_t b;
...
} c_t;

c_t c_obj;
a_t* a_ptr = (a_ptr*)&c_obj;

then indeed the address of the data member a is equal to the address of the object c_obj.

However for the data member b this relation is broken because the data member b is not the first data member of the structure c_t.

As for this statement

b_t* b_ptr = (b_ptr*)(&c_obj + sizeof(a_t));

then it is entirely wrong. For starters in this sub-expression &c_obj + sizeof(a_t) there is used the pointer arithmetic and the value of the expression &c_obj is incremented by the value sizeof( c_t ) * sizeof( a_t ) .

It seems you mean

b_t* b_ptr = (b_ptr*)(( char * )&c_obj + sizeof(a_t));

However in any case the expression in the right side in general will not yield the address of the data member b due to a possible alignment,

Consider the following demonstrative program.

#include <stdio.h>

struct A
{
    int x;
};

struct B
{
    double y;
};

struct C
{
    struct A a;
    struct B b;
};

int main(void) 
{
    struct C c = { { 1 }, { 2.2 } };
    
    printf( "&c.a = %p\n( char * )( &c.c ) + sizeof( struct A ) = %p\n&c.b = %p\n",
            ( void * )&c.a, ( void * ) ( ( char * )&c.a + sizeof( struct A ) ), ( void * )&c.b );
    return 0;
}

Its output might look like

&c.a = 0x7ffe5e0697c0
( char * )( &c.c ) + sizeof( struct A ) = 0x7ffe5e0697c4
&c.b = 0x7ffe5e0697c8

As you see the data member a was appended with bytes to align the next data member b to double.