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How to interpret complex declarations like :

int * (* (*fp1) (int) ) [10]; --->declaration 1
int *( *( *[5])())(); -------->declaration 2

Is there any rule that should be followed to understand the above declarations?

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1  
int *( *( *[5])())(); <- where is the variable name in that declaration ? –  Andreas Grech Dec 12 '09 at 11:20
    
Although i wont agree: Such declarations are one of the reasons, why some people fear and hate C and even more C++. –  RED SOFT ADAIR Dec 12 '09 at 14:15

7 Answers 7

up vote 12 down vote accepted

Here is a great article about how to read complex declarations in C: http://www.codeproject.com/KB/cpp/complex%5Fdeclarations.aspx

It helped me a lot!

Especially - You should read "The right rule" section. Here quote:

int * (* (*fp1) (int) ) [10]; This can be interpreted as follows:

  1. Start from the variable name -------------------------- fp1
  2. Nothing to right but ) so go left to find * -------------- is a pointer
  3. Jump out of parentheses and encounter (int) --------- to a function that takes an int as argument
  4. Go left, find * ---------------------------------------- and returns a pointer
  5. Jump put of parentheses, go right and hit [10] -------- to an array of 10
  6. Go left find * ----------------------------------------- pointers to
  7. Go left again, find int -------------------------------- ints.
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+1 for the link. –  whacko__Cracko Dec 12 '09 at 12:42

You can use cdecl*:

cdecl> explain int *( *( *a[5])())();
 declare a as array 5 of pointer to function
 returning pointer to function returning pointer to int
cdecl> explain int * (* (*fp1) (int) ) [10];
 declare fp1 as pointer to function (int) returning
 pointer to array 10 of pointer to int

*Linked is a website that uses this command line tool in the backend.

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I've learned the following method long ago:

Start from the type identifier (or the inner parenthesis) and move following a spiral taking the element at right first

In case of

 int * (* (*fp1) (int) ) [10];

You can say:

  • fp1 is a (nothing on the right so move left)
  • pointer to (move out of the inner parenthesis
  • a function taking int as agument (the 1st on the right)
  • and returns a pointer to (exit from parenthesis)
  • an array of 10 elements of type
  • pointer to (nothing left on the right)
  • int

Resulting in:

fp1 is a pointer to a function taking an int and returning a pointer to an array of 10 pointers to int

Drawing the actual spiral (in you your mind, at least) helps a lot.

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For solving these complicated declarations, the rule you need to keep in mind is that the precedence of function-call operator () and array subscript operator [] is higher than dereference operator *. Obviously, parenthesis ( ) can be used to override these precedences.

Now, work out your declaration from the middle, which means from the identifier name.

int * (* (*fp1) (int) ) [10]; --->declaration 1

Based on the precedences rule mentioned above, you can easily understand it by breaking down the declaration as

fp1 * (int) * [10] * int

and read it directly from left-to-right in English as "fp1 is a pointer to a function accepting an int & returning a pointer to an array [10] of pointers to int". Note that the declaration is broken this way only to help understand it manually. The compiler need NOT parse it this way.

Similarly,

int *( *( *[5])())(); -------->declaration 2

is broken as

[5] * () * () * int

So, it declares "an array [5] of type pointers to function () which returns a pointer to a function () which in turn returns a pointer to int".

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Though it's has been answered already, but you may also read this article :

http://unixwiz.net/techtips/reading-cdecl.html

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Start with the leftmost identifier and work your way out, remembering that absent any explicit grouping [] and () bind before *, e.g:

    *a[]                 -- is an array of pointer
  (*a)[]                 -- is a pointer to an array
    *f()                 -- is a function returning pointer
  (*f)()                 -- is a pointer to a function

Thus, we read int *(*(*fp1)(int))[10] as:

         fp1                     -- fp1
        *fp1                     -- is a pointer
       (*fp1)(int)               -- to a function
                                      taking an int parameter
      *(*fp1)(int)               -- returning a pointer
     (*(*fp1)(int))[10]          -- to a 10-element array
    *(*(*fp1)(int))[10]          -- of pointer 
int *(*(*fp1)(int))[10]          -- to int

The declaration int *(*(*[5])())() presents a bit of a challenge since there's no identifier; you typically see this in function declarations where a parameter is of that type:

void foo(int *(*(*[5])())(), double);

It's the same principle as the unnamed int parameter in the declaration of fp1. The array gives us the clue, you can also look for the leftmost inner grouping of parentheses.

                         -- unnamed
         [5]             -- is a 5-element array ([] binds before *)
        *[5]             -- of pointers
       (*[5])()          -- to functions
      *(*[5])()          -- returning pointers
     (*(*[5])())()       -- to functions
    *(*(*[5])())()       -- returning pointers
int *(*(*[5])())()       -- to int
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The clockwise/spiral:

* http://c-faq.com/decl/spiral.anderson.html
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Great! I didn't know this method had a name! –  Remo.D Dec 12 '09 at 18:40
    
Clockwise/spiral! good!!! –  Sam Mar 8 '13 at 14:42

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