How do I interpret complex declarations like:
int * (* (*fp1) (int) ) ; ---> declaration 1 int *( *( *)())(); --------> declaration 2
Is there any rule that should be followed to understand the above declarations?
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:
You can use
I've learned the following method long ago:
In case of
You can say:
Drawing the actual spiral (in you your mind, at least) helps a lot.
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.
Based on the precedences rule mentioned above, you can easily understand it by breaking down the declaration as
fp1 * (int) *  * 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  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.
is broken as
 * () * () * int
So, it declares "an array  of type pointers to function () which returns a pointer to a function () which in turn returns a pointer to int".
Though it's has been answered already, but you may also read this article :
Start with the leftmost identifier and work your way out, remembering that absent any explicit grouping
*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
It's the same principle as the unnamed