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Why does gcc allow extern declarations of type void? Is this an extension or standard C? Are there acceptable uses for this?

I am guessing it is an extension, but I don't find it mentioned at:
http://gcc.gnu.org/onlinedocs/gcc-4.3.6/gcc/C-Extensions.html

$ cat extern_void.c
extern void foo; /* ok in gcc 4.3, not ok in Visual Studio 2008 */
void* get_foo_ptr(void) { return &foo; }

$ gcc -c extern_void.c # no compile error

$ gcc --version | head -n 1
gcc (Debian 4.3.2-1.1) 4.3.2

Defining foo as type void is of course a compile error:

$ gcc -c -Dextern= extern_void.c
extern_void.c:1: error: storage size of ‘foo’ isn’t known

For comparison, Visual Studio 2008 gives an error on the extern declaration:

$ cl /c extern_void.c 
Microsoft (R) 32-bit C/C++ Optimizing Compiler Version 15.00.21022.08 for 80x86
Copyright (C) Microsoft Corporation.  All rights reserved.

extern_void.c
extern_void.c(1) : error C2182: 'foo' : illegal use of type 'void'
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What's interesting is that even with -std=c89 -pedantic gcc is cool with this. –  Dave Apr 6 '12 at 4:56
    
As I understand, defining a variable of type void is ill-formed, Applying extern on an incomplete type is not ill-formed though,For example: extern on array with unknown size,which is defined later.However,§6.2.5.19 says "The void type comprises an empty set of values; it is an incomplete object type that cannot be completed.", given that your code should be treated as a constraint violation.The fact that it compiles cleanly with -pedantic says that it is not an extension this is gcc bug or ambiguity in ways in which msvc and gcc interpret the standard. –  Alok Save Apr 6 '12 at 5:10
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3 Answers

up vote 5 down vote accepted

Strangely enough (or perhaps not so strangely...) it looks to me like gcc is correct to accept this.

If this was declared static instead of extern, then it would have internal linkage, and §6.9.2/3 would apply:

If the declaration of an identifier for an object is a tentative definition and has internal linkage, the declared type shall not be an incomplete type.

If it didn't specify any storage class (extern, in this case), then §6.7/7 would apply:

If an identifier for an object is declared with no linkage, the type for the object shall be complete by the end of its declarator, or by the end of its init-declarator if it has an initializer; in the case of function arguments (including in prototypes), it is the adjusted type (see 6.7.5.3) that is required to be complete.

I either of these cases, void would not work, because (§6.2.5/19):

The void type [...] is an incomplete type that cannot be completed.

None of those applies, however. That seems to leave only the requirements of §6.7.2/2, which seems to allow a declaration of a name with type void:

At least one type specifier shall be given in the declaration specifiers in each declaration, and in the specifier-qualifier list in each struct declaration and type name. Each list of type specifiers shall be one of the following sets (delimited by commas, when there is more than one set on a line); the type specifiers may occur in any order, possibly intermixed with the other declaration specifiers.

  • void
  • char
  • signed char

[ ... more types elided]

I'm not sure that's really intentional -- I suspect the void is really intended for things like derived types (e.g., pointer to void) or the return type from a function, but I can't find anything that directly specifies that restriction.

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My reading of §6.9.2 is exactly the opposite of yours: A declaration of an identifier for an object that has file scope without an initializer, and without a storage-class specifier or with the storage-class specifier static, constitutes a tentative definition. Doesn't that mean this is NOT a tentative definition and thus we an incomplete type is NOT allowed? Comeau, IMO, correctly complains. –  dirkgently Apr 6 '12 at 5:34
    
@dirkgently: This is definitely not a tentative definition, which is defined as (§6.9.2/2): "A declaration of an identifier for an object that has file scope without an initializer, and without a storage-class specifier or with the storage-class specifier static, constitutes a tentative definition." I don't see anything that says an incomplete type isn't allowed just because it's not a tentative definition though. –  Jerry Coffin Apr 6 '12 at 5:40
    
The ambiguity between gcc and msvc seems to be in interpretation of §6.2.5.19, If void is an Incomplete type which can never be completed, then the argument boils down to should extern be allowed to be applied on an Incomplete type which can never be complete,I believe it leaves room for implementation interpretation.Either ways, there will be an error for every compiler, just whether error is emitted during compilation or linking is what can differ & seems probably an edge case which they wouldnt want too many hassles about. –  Alok Save Apr 6 '12 at 6:20
    
@JerryCoffin: For initialization to be valid as per §6.7.9/3 The type of the entity to be initialized shall be an array of unknown size or a complete object type that is not a variable length array type. Now, the latter condition doesn't hold in this case. Which also explains why there is no definition as to how to initialize objects of type void. –  dirkgently Apr 6 '12 at 7:23
    
Also, from §J.2 Undefined behavior, this bit: An identifier for an object is declared with no linkage and the type of the object is incomplete after its declarator, or after its init-declarator if it has an initializer. Related: Even if this was a tentative definition, this would be UB as per: An identifier for an object with internal linkage and an incomplete type is declared with a tentative definition (6.9.2). (from J.2 again). –  dirkgently Apr 6 '12 at 7:37
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GCC (also, LLVM C frontend) is definitely buggy. Both Comeau and MS seems to report errors though.

The OP's snippet has at least two definite UBs and one red-herring:

From N1570

[UB #1] Missing main in hosted environment:

J2. Undefined Behavior

[...] A program in a hosted environment does not define a function named main using one of the specified forms (5.1.2.2.1).

[UB #2] Even if we ignore the above there still remains the issue of taking the address of a void expression which is explicitly forbidden:

6.3.2.1 Lvalues, arrays, and function designators

1 An lvalue is an expression (with an object type other than void) that potentially designates an object;64)

and:

6.5.3.2 Address and indirection operators

Constraints

1T he operand of the unary & operator shall be either a function designator, the result of a [] or unary * operator, or an lvalue that designates an object that is not a bit-field and is not declared with the register storage-class specifier.

[Note: emphasis on lvalue mine] Also, there is a section in the standard specifically on void:

6.3.2.2 void

1 The (nonexistent) value of a void expression (an expression that has type void) shall not be used in any way, and implicit or explicit conversions (except to void) shall not be applied to such an expression.

A file-scope definition is a primary-expression (6.5). So, is taking the address of the object denoted by foo. BTW, the latter invokes UB. This is thus explicitly ruled out. What remains to be figured out is if removing the extern qualifier makes the above valid or not:

In our case the, for foo as per §6.2.2/5:

5 [...] If the declaration of an identifier for an object has file scope and no storage-class specifier, its linkage is external.

i.e. even if we left out the extern we'd still land in the same problem.

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I've found the only legitimate use for declaring

extern void foo;

is when foo is a link symbol (an external symbol defined by the linker) that denotes the address of an object of unspecified type.

This is actually useful because link symbols are often used to communicate the extent of memory; i.e. .text section start address, .text section length, etc.

As such, it is important for the code using these symbols to document their type by casting them to an appropriate value. For instance, if foo is actually the length of a memory region:

uint32_t textLen;

textLen = ( uint32_t )foo;

Or, if foo is the start address of that same memory region:

uint8_t *textStart;

textStart = ( uint8_t * )foo;

The only alternate way to reference a link symbol in "C" that I know of is to declare it as an external array:

extern uint8_t foo[];

I actually prefer the void declaration, as it makes it clear that the linker defined symbol has no intrinsic "type."

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Do you have a code example where this method is used that you can link to? –  Shafik Yaghmour Apr 10 at 16:17
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