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This works:

struct LD__32
{
   struct LD__32 *ld;
};

But this doesn't:

struct LD_32
{
   struct LD_32 ld;
};

Why is this? I was compiling it as c++ code as pmg guessed. edited

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1  
Are you compiling your code as C++? In C, without a typedef in scope, the type name is struct LD__32. Try printing the value of sizeof 'a': if it's not 1, you're ok; if it's 1 the test is inconclusive (but you're probably compiling as C++) –  pmg Mar 16 '11 at 18:22
    
@pmg: or an easier test, print the value of __cplusplus (as a long). On no conforming C99 compiler, and on no known compiler of any other kind of C, will that be defined. –  Steve Jessop Mar 17 '11 at 22:09
    
Thanks for that @Steve. I don't know C++. Are all (Standard) C++ compiler implementations guaranteed to define the __cplusplus symbol? –  pmg Mar 17 '11 at 22:25
    
@pmg: yes, the C++98 and C99 standards co-ordinated. So C99 implementations are forbidden to define it, and C++ implementations must define it to the value 199711L (or smaller values for pre-standard, non-conforming implementations). It will be given a new value in C++0x. –  Steve Jessop Mar 17 '11 at 23:17

4 Answers 4

up vote 5 down vote accepted

A structure in C cannot contain a member with incomplete type.

In the latter case you can't have LD_32 ld; defined inside the LD_32 definition because the struct LD_32 is not already defined at that point.

Check out constaints on structure in C

Section 6.7.2.1/2

A structure or union shall not contain a member with incomplete or function type (hence, a structure shall not contain an instance of itself, but may contain a pointer to an instance of itself), except that the last member of a structure with more than one named member may have incomplete array type; such a structure (and any union containing, possibly recursively, a member that is such a structure) shall not be a member of a structure or an element of an array.

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Because it's a recursive and infinite definition. Think about it.

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Think about

sizeof(struct LD_32)
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1  
In this case it could be 1. Or any number, really. It's when there are other struct members that this argument becomes conclusive. –  Steve Jessop Mar 16 '11 at 18:02
2  
I think it's conclusive enough when a compile-time expression like sizeof() can have any value :-). –  Philipp T. Mar 16 '11 at 18:08
    
I mean that the implementation could choose any number, just as it has to choose a number for the size of an empty struct. 1 is the obvious choice. This struct does not present a size-related contradiction in the way that, say struct LD { LD ld; int x;} presents a contradiction. Consider that sizeof(int) is another example that can be any number the implementation chooses. In the case of int of course some choices are easier to implement than others, but the fact that the implementation has freedom isn't a problem as far as the standard is concerned... –  Steve Jessop Mar 16 '11 at 18:16
    
There is no such thing as "an empty struct" in C. And the fact that all objects have a representation as a char array overlaid with the object, together with the non-existence of zero-length arrays, implies to me that zero-size objects cannot exist in C. –  R.. Mar 16 '11 at 18:49
    
@R..: yes, fair point. "just as a C++ compiler has to choose a size for an empty struct", then. In C++, classes can have no data members (hence "empty"), but still are not zero-size. My point is, requiring implementations to make arbitrary choices is not a show-stopper as far as writing standards is concerned. Pretty much any other example would have illustrated Philipp's point by being logically impossible (which is a show-stopper). –  Steve Jessop Mar 17 '11 at 22:00
struct LD_32
{
   LD_32 ld;
};

In this situation, how would you expect the compiler to determine the size of the struct LD_32.

Size of a struct is determined by calculating the sum of the size of all the members, plus some padding.

So even if there is no padding, the size of this struct LD_32 would be equal to size of it's member which is LD_32 itself, that means,

sizeof(LD_32) = size of member { size(LD_32) = size of member { size(LD_32) = size of member { size(LD_32) = ...    ... } } } } } } 

In short, the size cannot be calculated, because the size depends on itself which is unknown.

So the size is indeterminate.

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