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  3. Get recognized for your expertise paragraph 14 of my draft of the C99 standard has this to say about unions and pointers (emphasis, as always, added):

The size of a union is sufficient to contain the largest of its members. The value of at most one of the members can be stored in a union object at any time. A pointer to a union object, suitably converted, points to each of its members (or if a member is a bit- field, then to the unit in which it resides), and vice versa.

All well and good, that means that it is legal to do something like the following to copy either a signed or unsigned int into a union, assuming we only want to copy it out into data of the same type:

union ints { int i; unsigned u; };

int i = 4;
union ints is = *(union ints *)&i;
int j = is.i; // legal
unsigned k = is.u; // not so much paragraph 2 has this to say:

The va_arg macro expands to an expression that has the specified type and the value of the next argument in the call. The parameter ap shall have been initialized by the va_start or va_copy macro (without an intervening invocation of the va_end macro for the sameap). Each invocation of the va_arg macro modifies ap so that the values of successive arguments are returned in turn. The parameter type shall be a type name specified such that the type of a pointer to an object that has the specified type can be obtained simply by postfixing a * to type. If there is no actual next argument, or if type is not compatible with the type of the actual next argument (as promoted according to the default argument promotions), the behavior is undefined, except for the following cases:

—one type is a signed integer type, the other type is the corresponding unsigned integer type, and the value is representable in both types;

—one type is pointer to void and the other is a pointer to a character type.

I'm not going to go and cite the part about default argument promotions. My question is: is this defined behavior:

void func(int i, ...)
    va_list arg;
    va_start(arg, i);
    union ints is = va_arg(arg, union ints);

int main(void)
    func(0, 1);
    return 0;

If so, it would appear to be a neat trick to overcome the "and the value is compatible with both types" requirement of signed/unsigned integer conversion (albeit in a way that's rather difficult to do anything with legally). If not, it would appear to be safe to just use unsigned in this case, but what if there were more elements in the union with more incompatible types? If we can guarantee that we won't access the union by element (i.e. we just copy it into another union or storage space that we're treating like a union) and that all elements of the union are the same size, is this allowed with varargs? Or would it only be allowed with pointers?

In practice I expect this code will almost never fail, but I want to know if it's defined behavior. My current guess is that it appears not to be defined, but that seems incredibly dumb.

share|improve this question
Now that I think about it, I suppose I'm more interested in whether func(0, -1); func(0, UINT_MAX); is legal. func(0, 1) might be legal solely because 1 fits into both int and unsigned. – Chris Lutz Sep 14 '11 at 4:29
unsigned k = is.u; is legal in C99. – Dietrich Epp Sep 14 '11 at 4:35
@Dietrich - Is there an exception due to the signed/unsigned thing? – Chris Lutz Sep 14 '11 at 4:37
None of those calls passes a union. You'd presumably need a compound literal: func(1, (union ints) { .i = 0 }); func(2, (union ints) { .u = UINT_MAX });, etc. Or union variables. – Jonathan Leffler Sep 14 '11 at 4:50
@Chris Lutz: As Pascal Cuoq notes, it became legal in C99 TC3 to do arbitrary type punning through unions. The resulting values are undefined. – Dietrich Epp Sep 14 '11 at 5:13

You have a couple things off.

A pointer to a union object, suitably converted, points to each of its members (or if a member is a bit- field, then to the unit in which it resides), and vice versa.

This does not mean that the types are compatible. In fact, they are not compatible. So the following code is wrong:

func(0, 1); // undefined behavior

If you want to pass a union,

func(0, (union ints){ .u = BLAH });

You can check by writing the code,

union ints x;
x = 1;

GCC gives an "error: incompatible types in assignment" message when compiling.

However, most implementations will "probably" do the right thing in both cases. There are some other problems...

union ints {
    int i;
    unsigned u;

int i = 4;
union ints is = *(union ints *)&i; // Invalid
int j = is.i; // legal
unsigned k = is.u; // also legal (see note)

The behavior when you dereference the address of a type using a type other than its actual type *(uinon ints *)&i is sometimes undefined (looking up the reference, but I'm pretty sure about this). However, in C99 it is permitted to access a union member other than the most recently stored union member (or is it C1x?), but the value is implementation defined and may be a trap representation.

About type punning through unions: As Pascal Cuoq notes, it's actually TC3 that defines the behavior of accessing a union element other than the most recently stored one. TC3 is the third update to C99. The good news is that this part of TC3 is really codifying existing practice — so think of it as a de facto part of C prior to TC3.

share|improve this answer
TC3 makes it explicit that unions can be used for type punning in C99: Defect Report 283 – Pascal Cuoq Sep 14 '11 at 4:52
@Pascal: Nice to know! – R.. Sep 14 '11 at 4:56

Since the standard says:

The parameter type shall be a type name specified such that the type of a pointer to an object that has the specified type can be obtained simply by postfixing a * to type.

For union ints, that condition is satisfied. Since union ints * is a perfectly good representation of a pointer to a union ints, so there is nothing in that sentence to prevent it being used to collect a value pushed onto the stack as a union.

If you cheat and try to pass a plain int or unsigned int in place of a union, then you would be invoking undefined behaviour. Thus, you could use:

union ints u1 = ...;

func(0, (union ints) { .i = 0 });
func(1, (union ints) { .u = UINT_MAX });
func(2, u1);

You could not use:

func(1, 0);

The arguments are not union types.

share|improve this answer

I don't see why you think that code should never fail in practice. It would fail on any implementation where integer types are passed by register but aggregate types (even when small) are passed on the stack, and I see nothing in the standard that forbids such implementations. A union containing an int is not a type compatible with int, even if their sizes are the same.

Back to your first code fragment, it has a problem too:

union ints is = *(union ints *)&i;

This is an aliasing violation and invokes undefined behavior. You could avoid it by using memcpy and I suppose then it would be legal..

I'm also a bit confused about your comment here:

unsigned k = is.u; // not so much

Since the value 4 is represented in both the signed and unsigned types, this should be legal, unless it's specifically forbidden as a special case.

If this doesn't answer your question, perhaps you could elaborate more on what (albeit theoretical) problem you're trying to solve.

share|improve this answer
Can you expand on how this is an aliasing violation? – wnoise Sep 14 '11 at 5:10
You first access the object through an lvalue of type int then through one of type union ints. The compiler may assume they do not alias one another. – R.. Sep 14 '11 at 6:12
Is the compiler allowed to assume restrict on parameters passed in place of ellipsis (...). – Jonathan Leffler Sep 14 '11 at 6:48
What do you mean? – R.. Sep 14 '11 at 12:09
How could the compiler assume that varargs arguments are passed in different places based on what type they are? – Chris Lutz Sep 14 '11 at 13:06

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