C declarations are based around the types of expressions, not objects.
If you have a pointer to an int
named pi
, and you want to access the integer value that it points to, you have to dereference the pointer, as in:
x = *pi;
printf("%d", *pi);
*pi = 1 + 2;
etc. The type of the expression *pi
is int
: therefore, the declaration should read as
int *pi;
Now let's suppose you had an array of pointers to char
; to get to any character, you need to first subscript into the array, then dereference the result:
c = *pc[i];
if (*pc[j] == 'a') {...}
etc. Again, the type of the expression *pc[i]
is char
, so the declaration reads as
char *pc[N];
Both *pi
and *pc[N]
are known as declarators, and specify additional type information not given by the type specifier. IOW, the array-ness and pointer-ness of pc
are specified as part of the declarator, while the char
-ness is given by the type specifier.
As to the question of which is style is proper...
Neither one is "right", but I (and many other C programmers) prefer to write T *p
as opposed to T* p
, since it more closely reflects the language grammar (the *
is part of the declarator) and it helps avoid confusion when declaring multiple items. I've seen far too many examples of people writing T* a, b;
and expecting b
to be a pointer.
The usual response to that criticism is "don't declare more than one item per line." My response to that response is "write your declarators correctly and you won't have any problems".
There's a different school of thought among many C++ programmers, who prefer the T* p
style, and I have to say there are a few cases (limited to C++) where it can make the code more readable.
However, that only works for simple pointers to T
: the paradigm rapidly breaks down when you start dealing with arrays of pointers, or pointers to arrays, or pointers to functions, or pointers to arrays of pointers to functions, etc. I mean, writing something like
T* (*(*p)[N])(); // p is a pointer to an array of pointers to functions
// returning pointers to T.
just indicates confused thinking. Although, if you really really really feel that you must follow the T* p
paradigm, you could always create a series of typedefs:
EDIT
Let's try that again:
typedef T* TPtr; // pointer to T
typedef TPtr TPtrFunc(); // function returning pointer to T
typedef TPtrFunc* TPtrFuncPtr; // pointer to function returning
// pointer to T
typedef TPtrFuncPtr TPtrFuncPtrArray[N]; // N-element array of pointer to function
// returning pointer to T
TPtrFuncPtrArray* p;
For the love of God, don't do that.