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Here is a structure used in a program:

struct basic_block
  void * aux;

  /* Many other fields,
  which are irrelevant.  */


  1. Several instances of basic_block exist during the execution of the program.
  2. The program works in stages/passes, which are executed one after another.
  3. The aux field is meant for storing stage and basic_block specific data during the execution of a stage, and freed by the stage itself (so the next stage can reuse it). This is why it is a void *.

My stage uses aux to store a struct, so each time I want to access something, I have to do a cast:

( (struct a_long_struct_name *) (bb->aux))->foo_field = foo;

Now, my problem: Casting it each time like this is a pain, and difficult to read when it is part of more complicated expressions. My proposed solution was: Use a macro to do the cast for me:

#define MY_DATA(bb) \
  ( (struct a_long_struct_name *) (bb)->aux)

Then I can access my data with:

MY_DATA(bb)->foo_field = foo;

But: I cannot use MY_DATA(bb) itself as an L-value (for a malloc), so I using that macro isn't such a good idea after all:

/* WRONG! I cannot assign to the result of a cast:  */
MY_DATA(bb) = malloc (sizeof (struct a_long_struct_name));

My question:

What can I do in order to refer to aux in a clean way and still be able to use it as an L-value.

share|improve this question
[I've deleted my answer]. In that case, I don't understand what you're trying to do. You have a void * pointer, and you want to cast it to a different pointer, and then assign a void * (from malloc) to it? –  Oliver Charlesworth Jun 20 '12 at 15:21
The fact that in the question I "cast it to a different pointer, and then assign a void * (from malloc) to it" is really a side effect, and not the real problem. I know that the result of a cast is never an L-value. –  ArjunShankar Jun 20 '12 at 15:31
@OliCharlesworth - I have edited my question in the hope that it is clearer. –  ArjunShankar Jun 20 '12 at 15:37
You don't need any cast in there man, just do bb->aux = malloc(... –  user405725 Jun 20 '12 at 15:51
@VladLazarenko - The point of the macro was to hide the fact that I'm working with bb->aux, and use a uniform expression to refer to it everywhere during my stage. –  ArjunShankar Jun 20 '12 at 15:52

4 Answers 4

up vote 2 down vote accepted

You can cast the address of the field to struct a_long_struct_name ** and then dereference it:

#define MY_DATA(bb) \
   (* ((struct a_long_struct_name **) &(bb)->aux) )

This will work in both the constructs you have shown.

If the set of possibilities for the concrete type of aux can be known at the point where struct basic_block is declared, though, it would be cleaner to use a union:

struct basic_block
  union {
      struct a_long_struct_name *alsn;
      /* etc */
  } aux;

  /* Many other fields,
     which are irrelevant.  */

and then

#define MY_DATA(bb) ((bb)->aux.alsn)
share|improve this answer
+1. The first solution makes sense and I intend to use it. While the second one is better, I personally cannot use it because aux is already used as-is by other stages. –  ArjunShankar Jun 20 '12 at 16:10
I'm marking this because the first solution offered here is the one I eventually used. Visitors-from-Future: Also look at Jim Balter's answer. –  ArjunShankar Jun 20 '12 at 23:34


#define MY_DATA(bb) \
  ( *(struct a_long_struct_name **) &(bb)->aux)

Note that this introduces aliasing so you'll have to be consistent in your use of the macro.

share|improve this answer
+1, this is useful. –  ArjunShankar Jun 20 '12 at 16:08

It isn't necessary to litter your code with macro calls:

struct a_long_struct_name* strp = malloc(sizeof *strp);
if (!strp)
    <handle OOM>
bb->aux = strp;
strp->foo_field = foo;
share|improve this answer
+1. This is nice! –  ArjunShankar Jun 20 '12 at 16:48
Your alternative is nice, but I'm hesitant to +1 when it says Zack's answer works fine. It may work in most cases by chance, but it's not valid C and compilers can and do make optimizations that break it. –  R.. Jul 8 '12 at 14:28
@R.. Ok, I edited it. –  Jim Balter Jul 9 '12 at 8:44

You can't. C forbids accessing an object of one type (void *) via an lvalue expression of different type (struct a_long_struct_name *), and breaking this rule is an aliasing violation. What that means from a practical standpoint is that the compiler is allowed to assume these two lvalues cannot refer to the same memory, and thus may reorder reads and writes in a way that breaks your code badly. Formally, it's just undefined behavior, which means anything could happen.

What you should do is use the original version of your code in the question, and forget about using MY_DATA(bb) as an lvalue. Instead just assign directly to bb->aux. This is what void * is for.

share|improve this answer
+1/ Thanks for posting this answer, and especially for pointing out the bit about the two values not aliasing each other. I will re-look at this tomorrow. Right now, I don't have the code before me and I don't want to do an un-accept without being doubly sure [I'll try and cause a breakage] –  ArjunShankar Jul 8 '12 at 14:31

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