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In one of our files I saw this function

void match(int states[*]);

I have never seen such a thing in C. Can someone please explain that what this weird operator in the brackets mean?

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Be careful to stay away from managed code, makes perfect sense there. –  Hans Passant Oct 15 '11 at 23:10
2  
@Hans Passant Elaboration? –  user166390 Oct 15 '11 at 23:12
    
This is usually easier when the OP goes "oops, that might be it". –  Hans Passant Oct 15 '11 at 23:13
4  
@Hans my code is managed by subversion. –  Johannes Schaub - litb Oct 15 '11 at 23:27
1  
I don't think that's what he meant by managed code. –  Keith Thompson Oct 16 '11 at 0:06

3 Answers 3

This is syntax that was new in C99. It is valid only for a parameter in a function declaration that is not also a definition. It indicates a variable-length array of unspecified length; in this case, since it is at the top level, it is (as usual) completely equivalent to int states[] and int *states.

This syntax is useful if a pointer to an array is passed - for example, if we have a function like:

void foo(size_t n, int a[][n])
{
    /* ... */
}

..then we can write a compatible declaration that provides a prototype as either:

void foo(size_t n, int a[][n]);

or as:

void foo(size_t, int a[][*]);

These are completely equivalent.

(By the way, the * there is not an operator, it is just punctuation.)

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[*] denotes a C99 variable-length array of unspecified size, which is only valid in prototypes, but nevertheless a complete type (ie distinct from [], which denotes an incomplete array type).

Your example, however, makes no sense. A more reasonable example would be

// in header file:
void match(size_t, int *[*]);

// in source file:
void match(size_t count, int *states[count])
{
    // ...
}

As the parameter names are omitted, the array declaration can't refer to the first argument, so a placeholder had to be introduced.

However, as parameter adjustments still get applied, the prototype is identical to

void match(size_t, int **);

and the array type information is discarded.

This is not the case for higher indices of multi-dimensional arrays, eg

double det(size_t rows, size_t cols, double mat[rows][cols]);

only discards the rows, ie the declaration is equivalent to

double det(size_t rows, size_t cols, double mat[][cols]);

and

double det(size_t rows, size_t cols, double (*mat)[cols]);

which in turn correspond to the following compatible declarations

double det(size_t, size_t, double [*][*]);
double det(size_t, size_t, double [][*]);
double det(size_t, size_t, double (*)[*]);

To prevent the parameter adjustment, pass a pointer to the array instead, ie

double det(size_t rows, size_t cols, double (*mat)[rows][cols])

Then, sizeof *mat should return the expected value within the function body.

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bad example because the determinant is only defined for square matrices - hopefully, at least the code makes sense ;) –  Christoph Oct 15 '11 at 23:37
1  
Ohh that makes sense. I see now that there is no way to write double[*][*][*] without the [*] because we cannot write [1] at a non-toplevel position (it would make the type incompatible with the parameter type in the definition) and we cannot write [] because array types cannot have another array type without a size as element type. Is this correct? –  Johannes Schaub - litb Oct 15 '11 at 23:47
    
@litb: yes, this is indeed correct; in particular, the type of array elements must be complete (ie have a known size), even if its size is not known until runtime in case of VLAs –  Christoph Oct 15 '11 at 23:54
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@JohannesSchaub-litb: You can still write double [*][*][*] without the [*], but doing so requires you to name the parameters in the prototype (you must do sometype n, double [n][n][n] or equivalent). –  caf Oct 16 '11 at 0:00
    
@caf: And most importantly, there's no way to use named arguments in prototypes in a namespace-safe manner. –  R.. Oct 16 '11 at 2:45

It's a C99-ism for specifying a variable length array in a prototype. See §6.7.5.2 (para.4 in particular). (I don't think I've ever seen anything use it before!)

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