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I know this is very basic but it is little bit confusing to me.
I've read:

a pointer is nothing more than an address, and a pointer variable is just a variable that can store an address.
When we store the address of a variable i in the pointer variable p, we say that p points to i.

int i, *p = &i;

p points to i.

To gain access to the object that a pointer points to, we use the * (indirection) operator.

If p is a pointer then *p represents the object to which p currently points.

Now I am confused that what should I call p -- pointer or pointer variable?

Additional: Is a pointer always the same as an address?

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reading "What does “dereferencing” a pointer mean?" may be helpful and of-course from wiki: "Pointer (computer programming)" – Grijesh Chauhan Jul 14 '13 at 20:43
@GrijeshChauhan; I have read the first link befor asking this question :). Thanks for the second link. – haccks Jul 14 '13 at 20:45
@GrijeshChauhan; Thanks for the wiki link. It explain dereferencing in a very beautiful way.(actually it has been my next question if you have not provided that link :) ). – haccks Jul 14 '13 at 21:17
Usually it's a good idea (at least as a beginner) to split these type of declarations up into multiple lines. That is int i, *p = &i; is equivalent to int i; int *p = &i; – Joakim Sep 30 at 17:35

6 Answers 6

up vote 4 down vote accepted

The difference between a pointer value and a pointer variable is illustrated by:

int swap_int(int *i1, int *i2)
    int t = *i1;
    *i1 = *i2;
    *i2 = t;

int main(void)
    int  v1 = 0;
    int  v2 = 37;
    int *p2 = &v2;
    printf("v1 = %d, v2 = %d\n", v1, v2);
    swap_int(&v1, p2);
    printf("v1 = %d, v2 = %d\n", v1, v2);
    return 0;

Here, p2 is a pointer variable; it is a pointer to int. On the other hand, in the call to swap_int(), the argument &v1 is a pointer value, but it is in no sense a pointer variable (in the calling function). It is a pointer to a variable (and that variable is v1), but simply writing &v1 is not creating a pointer variable. Inside the called function, the value of the pointer &v1 is assigned to the local pointer variable i1, and the value of the pointer variable p2 is assigned to the local pointer variable i2, but that's not the same as saying &v1 is a pointer variable (because it isn't a pointer variable; it is simply a pointer value).

However, for many purposes, the distinction is blurred. People would say 'p2 is a pointer' and that's true enough; it is a pointer variable, and its value is a pointer value, and *p2 is the value of the object that p2 points to. You get the same blurring with 'v1 is an int'; it is actually an int variable and its value is an int value.

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And AFAIK the Standard doesn't even use the terminology "variable" anyway. – user529758 Jul 14 '13 at 20:23
@H2CO3; You mean pointer variable? – haccks Jul 14 '13 at 20:35
@haccks "pointer-to-T", where "T" is a type. And "objects" are used for variables IIRC, but you can check the current or previous C standard (C11 and C99, respectively), they're available for free on the Internet. – user529758 Jul 14 '13 at 20:48
I'd say 'yes: a valid pointer is always the address of some object or function; a null pointer is invalid but recognizable; other invalid pointers are dangerous to use — even reading them without dereferencing them might cause problems on some (mainly mainframe-like) systems'. – Jonathan Leffler Jul 14 '13 at 22:46
@H2CO3: In section §, some non-normative (example) text says the abstract machine [must] promote the value of each variable to int size and then add the two ints and truncate the sum. There are a few other non-normative references to variables in section 6 (the main definition of the language), but the main spiel manages to avoid the term variable except for variable length arrays and variable argument lists, neither of which counts. – Jonathan Leffler Jul 14 '13 at 22:51

Let's replace the word "pointer" with a datatype that's hopefully more familiar, like an int:

int n = 42;

Here 42 is an int value, and n is a variable that holds an int. You could call n an "int variable". An int is a number like 42 or -25315685, and an int variable holds these numbers. Once you have a variable you can assign different numbers to it. Nothing confusing so far?

A pointer is just like an int: a number. It happens to be a number that identifies a memory location, and if something is stored in that memory location you can call it an address. Like an int, a pointer can be stored in a variable. A variable that stores a pointer could be called a pointer variable.

So, what's the difference between a pointer and a pointer variable? The first one is a value, like a number, the second stores these values. But often people refer to variables by their values that they store; people don't call n an "int variable" but just int, even though it can at different times store different ints. In this text I'll do the same and sometimes write pointer when I mean a pointer variable; hopefully the distinction will be clear.

Is a pointer always an address? This is a question about the meaning of the word "address" more than anything else. A pointer is always an address in the sense that it corresponds to a memory location in one way or another, it's an "address" for that memory location. But on the other hand, if the memory location is not accessible to the program or doesn't have anything useful stored in it, is it really an "address" for anything?

Let's now investigate the following code:

int *p;
p = &n;

The first line declares a pointer variable called p. The pointers that can be stored into p are memory locations for int data; this is important for reasons that we'll see later. We still don't give p any value, so the pointer it stores is arbitrary. It certainly doesn't store the address of anything useful; it may even point to an area of memory inaccessible to the program.

In the second line we take the address of the n variable with the &-operator and assign it to p. Now p stores the address of n, the memory location where the value of n is stored.

What can we do with a pointer? We can read and write to the memory location that the pointer identifies. To do this we "dereference" the pointer with the *-operator, and then (*p) can be used just like you can use n. For example, you can write a new value into n with this:

*p = 123;

It's at this point that it becomes apparent why we need to know the type of data that p can point to: otherwise you can't know what you could assign to (*p).

Another reason why it's important to know the type of data that p can point to is pointer arithmetic. For example p+1 is a pointer to the int stored in memory right after n; if p was a pointer to a big data structure p+1 would be a pointer to a data structure of the same type stored right after it. For this the compiler must know the size of what the pointer points to.

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Thanks for explaining additional one( but I did't get your explanation completely) +1. – haccks Jul 14 '13 at 21:34
What parts did you find difficult to follow? – Joni Jul 14 '13 at 21:39
Your investigation part is really good and it helped me understand some good points but it is not specific to my question; Is a pointer always an address? – haccks Jul 14 '13 at 22:43
Well, that would depend on what's meant by "address" but I would say no. Imagine you're writing a program for a modern computer: the program asks the operating system for some memory. The only valid addresses are for the memory the OS returned, but there are many more values you can store in a pointer. Or imagine an embedded system without an operating system. The only valid addresses are for the memory that's actually installed, which is typically a fraction of the number of distinct pointer values. A pointer is not always a valid address. – Joni Jul 15 '13 at 5:49

The terms pointer and pointer variable are often used synonymously.

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p is a pointer variable, that points to a variable i. We can simply call it pointer.

A declaration:

int* p;
int i;
p = &i; 

declares p as the identifier of an int type object. This is usually stated more succinctly as 'p is a pointer to i'. p can be use to refer int variable i after expression p = &i. To access value of variable i using pointer p you can use Dereference operator * (e.g. *p). Anf i = 10; equivalent to *p = 10;.

Also notice in expression p = &i; to read address of i I used & ampersand operator also called Address of operand.

Pointer is just a logical address (a identifier by which a variable can be referenced). The C standard does not define what a pointer is internally and how it works internally.

You would like to read: What exactly is a C pointer if not a memory address?
Additionally, read this: to Understand the purpose of pointers.

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But it is said that a pointer is nothing more than an address – haccks Jul 14 '13 at 19:49
Yes. Give me a moment , I am going through it. – haccks Jul 14 '13 at 19:53
Jonathan explained it well. Again thanks for this link. – haccks Jul 14 '13 at 21:26
@haccks your welcome, yes Jonathon is awesome guy! I read many of his answers. – Grijesh Chauhan Jul 15 '13 at 3:32

A variable is a place to store a value. In C, whenever you use a variable in a context that needs a value, the value of the variable is retrieved, so saying "p" in that context is the same as saying "the value of variable p":

int *q = p;  // Copy the value of variable p into the variable q.
             // aka: copy p into q.
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pointer: a variable whose value is the address of another variable.

pointer variable: is one that contains the location or address of memory where another variable, data value, or function is store.

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