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Why do most C programmers name variables like this:

int *myVariable;

rather than like this:

int* myVariable;

Both are valid. It seems to me that the asterisk is a part of the type, not a part of the variable name. Can anyone explain this logic?

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possible duplicate of Pointer declarations in C++: placement of the asterisk – Qadi Nov 4 '14 at 18:19

11 Answers 11

up vote 149 down vote accepted

They are EXACTLY equivalent. However, in

int *myVariable, myVariable2;

It seems obvious that myVariable has type int*, while myVariable2 has type int. In

int* myVariable, myVariable2;

it seems obvious that both are of type int*, but myVariable2 does NOT have this type.

Therefore, the first programming style is more intuitive.

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perhaps but I wouldn't mix and match types in one declaration. – BobbyShaftoe Dec 30 '08 at 3:13
@BobbyShaftoe Agreed. Even after reading every argument in here, I'm sticking with int* someVar for personal projects. It makes more sense. – Kupiakos Feb 27 '14 at 23:34
@Kupiakos It only makes more sense until you learn C's declaration syntax based on "declarations follow use". Declarations use the exact same syntax that use of the same-typed variables do. When you declare an array of ints, it does not look like: int[10] x. This is simply not C's syntax. The grammar explicitly parses as: int (*x), and not as (int *) x, so placing the asterisk on the left is simply misleading and based on a misunderstanding of C declaration syntax. – Peaker Aug 31 '14 at 20:38
Correction: therefore, you should never declare more than one variable on a single line. In general, you shouldn't motivate a certain coding style based on some other unrelated, bad and dangerous coding style. – Lundin Jan 29 at 10:50

If you look at it another way, *myVariable is of type int, which makes some sense.

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This is my favorite explanation, and works well because it explains C's declaration quirks in general--even the disgusting and gnarly function pointer syntax. – Benjamin Pollack Dec 29 '08 at 19:29
It's sort of neat, since you can imagine there isn't any actual pointer types. There are only variables that, when appropriately referenced or dereferenced, gives you one of the primitive types. – biozinc Dec 29 '08 at 19:34
That's actually an excellent point, thanks! – ReaperUnreal Dec 29 '08 at 21:02
qonf: NULL is not a type. myVariable can be NULL, in which case *myVariable causes a segmentation fault, but there is no type NULL. – Daniel Roethlisberger Jan 9 '13 at 19:02
This point can be misleading in such context: int x = 5; int *pointer = &x;, because it suggests we set the int *pointer to some value, not the pointer itself. – rafalcieslak Feb 23 '13 at 20:04

Because the * binds more closely to the variable than to the type:

int* varA, varB; // This is misleading

However, even the best single-line declarations seem counter-intuitive to me, because the * is part of the type. I like to do this instead:

int* varA;
int varB;

As usual, less the compact your code, the more readable it is. ;)

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That's just a matter of preference.

When you read the code, distinguishing between variables and pointers is easier in the second case, but it may lead to confusion when you are putting both variables and pointers of a common type in a single line (which itself is often discouraged by project guidelines, because decreases readability).

I prefer to declare pointers and references with their corresponding sign next to type name, e.g.

int* pMyPointer;
int& myReference;
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The question is about C, where there are no references. – Antti Haapala May 1 at 7:10

I'm going to go out on a limb here and say that there is a straight answer to this question, both for variable declarations and for parameter and return types, which is that the asterisk should go next to the name: int *myVariable;. To appreciate why, look at how you declare other types of symbol in C:

int my_function(int arg); for a function;

float my_array[3] for an array.

The general pattern, referred to as declaration follows use, is that the type of a symbol is split up into the part before the name, and the parts around the name, and these parts around the name mimic the syntax you would use to get a value of the type on the left:

int a_return_value = my_function(729);

float an_element = my_array[2];

and: int copy_of_value = *myVariable;.

C++ throws a spanner in the works with references, because the syntax at the point where you use references is identical to that of value types, so you could argue that C++ takes a different approach to C. On the other hand, C++ retains the same behaviour of C in the case of pointers, so references really stand as the odd one out in this respect.

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Something nobody has mentioned here so far is that this asterisk is actually the "dereference operator" in C.

*a = 10;

The line above doesn't mean I want to assign 10 to a, it means I want to assign 10 to whatever memory location a points to. And I have never seen anyone writing

* a = 10;

have you? So the dereference operator is pretty much always written without a space. This is probably to distinguish it from a multiplication broken across multiple lines:

x = a * b * c * d
  * e * f * g;

Here *e would be misleading, wouldn't it?

Okay, now what does the following line actually mean:

int *a;

Most people would say:

It means that a is a pointer to an int value.

This is technically correct, most people like to see/read it that way and that is the way how modern C standards would define it (note that language C itself predates all the ANSI and ISO standards). But it's not the only way to look at it. You can also read this line as follows:

The dereferenced value of a is of type int.

So in fact the asterisk in this declaration can also be seen as a dereference operator, which also explains its placement. And that a is a pointer is not really declared at all, it's implicit by the fact, that the only thing you can actually dereference is a pointer.

The C standard only defines two meanings to the * operator:

  • indirection operator
  • multiplication operator

And indirection is just a single meaning, there is no extra meaning for declaring a pointer, there is just indirection, which is what the dereference operation does, it performs an indirect access, so also within a statement like int *a; this is an indirect access (* means indirect access) and thus the second statement above is much closer to the standard than the first one is.

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Thanks for saving me from writing yet another answer here. BTW I usually read the int a, *b, (*c)(); as something like "declare the following objects as int: the object a, the object pointed to by b, and the object returned from function pointed to by c". – Antti Haapala May 1 at 7:18

Because it makes more sense when you have declarations like:

int *a, *b;
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This is literally an example of begging the question. No, it does not make more sense that way. "int* a ,b" could just as well make both of them pointers. – MichaelGG Aug 19 '15 at 21:02

For declaring multiple pointers in one line, I prefer int* a, * b; which more intuitively declares "a" as a pointer to an integer, and doesn't mix styles when likewise declaring "b." Like someone said, I wouldn't declare two different types in the same statement anyway.

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In K&R, they place the pointer operator next to the variable name rather than the type. Personally, I consider that book to be the ultimate C authority/bible. Also coming from an Objective-C background, I follow the *name convention.

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I already answered to a similar question in CP, and, because nobody mentioned that, also here I have to point out that C is a free format language, whatever style you choose its ok while the parser can make a distinction of each token. This peculiarity of C lead to a very special type of contest called C obfuscation contest.

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A great guru once said "Read it the way of the compiler, you must."

Granted this was on the topic of const placement, but the same rule applies here.

The compiler reads it as:

int (*a);

not as:

(int*) a;

If you get into the habit of placing the star next to the variable, it will make your declarations easier to read. It also avoids eyesores such as:

int* a[10];
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