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Is an array's name a pointer in C? If not, what is the difference between an array's name and a pointer variable?

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No. But array is the same &array[0] –  user166390 Oct 29 '09 at 6:51
@pst: &array[0] yields a pointer, not an array ;) –  jalf Oct 29 '09 at 6:55
@pst meant that array (the name of array, that's why in italic) points on the first element of array and it's the same as write &array[0] (also in italic). –  Nava Carmon Oct 29 '09 at 7:23
@Nava (and pst): array and &array[0] are not really the same. Case in point: sizeof(array) and sizeof(&array[0]) give different results. –  Thomas Padron-McCarthy Oct 29 '09 at 7:50
@Thomas agree, but in terms of pointers, when you dereference array and &array[0], they produce the same value of array[0].i.e. *array == array[0]. Nobody meant that these two pointers are the same, but in this specific case (pointing to the first element) you can use the name of array either. –  Nava Carmon Oct 29 '09 at 11:12

11 Answers 11

up vote 110 down vote accepted

An array is an array and a pointer is a pointer, but in most cases array names are converted to pointers. A term often used is that they decay to pointers.

Here is an array:

int a[7];

a contains space for seven integers, and you can put a value in one of them with an assignment, like this:

a[3] = 9;

Here is a pointer:

int *p;

p doesn't contain any spaces for integers, but it can point to a space for an integer. We can for example set it to point to one of the places in the array a, such as the first one:

p = &a[0];

What can be confusing is that you can also write this:

p = a;

This does not copy the contents of the array a into the pointer p (whatever that would mean). Instead, the array name a is converted to a pointer to its first element. So that assignment does the same as the previous one.

Now you can use p in a similar way to an array:

p[3] = 17;

The reason that this works is that the array dereferencing operator in C, "[ ]", is defined in terms of pointers. x[y] means: start with the pointer x, step y elements forward after what the pointer points to, and then take whatever is there. Using pointer arithmetic syntax, x[y] can also be written as *(x+y).

For this to work with a normal array, such as our a, the name a in a[3] must first be converted to a pointer (to the first element in a). Then we step 3 elements forward, and take whatever is there. In other words: take the element at position 3 in the array. (Which is the fourth element in the array, since the first one is numbered 0.)

So, in summary, array names in a C program are (in most cases) converted to pointers. One exception is when we use the sizeof operator on an array. If a was converted to a pointer in this contest, sizeof(a) would give the size of a pointer and not of the actual array, which would be rather useless, so in that case a means the array itself.

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A similar automatic conversion is applied to function pointers - both functionpointer() and (*functionpointer)() mean the same thing, strangely enough. –  Carl Norum Oct 29 '09 at 6:52
He did not asked if arrays and pointers are the same, but if an array's name is a pointer –  Ricardo Amores Oct 29 '09 at 6:58
An array name is not a pointer. It's an identifier for a variable of type array, which has an implicit conversion to pointer of element type. –  Pavel Minaev Oct 29 '09 at 7:24
Also, apart from sizeof(), the other context in which there's no array->pointer decay is operator & - in your example above, &a will be a pointer to an array of 7 int, not a pointer to a single int; that is, its type will be int(*)[7], which is not implicitly convertible to int*. This way, functions can actually take pointers to arrays of specific size, and enforce the restriction via the type system. –  Pavel Minaev Oct 29 '09 at 7:25
@Pavel: Thanks for the comment about &. I knew there were other exceptions, but sizeof was the only one on top of my mind. I've changed "an exception" to "one exception", which I think indicates that there are other exceptions (but I'm no a native English speaker). –  Thomas Padron-McCarthy Oct 29 '09 at 7:41

When an array is used as a value, its name represents the address of the first element.
When an array is not used as a value its name represents the whole array.

int arr[7];

/* arr used as value */
int x = *(arr + 1); /* same as arr[1] */

/* arr not used as value */
size_t bytes = sizeof arr;
void *q = &arr; /* void pointers are compatible with pointers to any object */
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thanks..helped me –  Krupal Shah Dec 27 '14 at 9:46
great answer... –  Bin Mar 24 at 16:27

The array name by itself yields a memory location, so you can treat the array name like a pointer:

int a[7];

a[0] = 1976;
a[1] = 1984;

printf("memory location of a: %p", a);

printf("value at memory location %p is %d", a, *a);

And other nifty stuff you can do to pointer (e.g. adding/substracting an offset), you can also do to an array:

printf("value at memory location %p is %d", a + 1, *(a + 1));

Language-wise, if C didn't expose the array as just some sort of "pointer"(pedantically it's just a memory location. It cannot point to arbitrary location in memory, nor can be controlled by the programmer). We always need to code this:

printf("value at memory location %p is %d", &a[1], a[1]);
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An array declared like this

int a[10];

allocates memory for 10 ints. You can't modify a but you can do pointer arithmetic with a.

A pointer like this allocates memory for just the pointer p:

int *p;

It doesn't allocate any ints. You can modify it:

p = a;

and use array subscripts as you can with a:

p[2] = 5;
a[2] = 5;    // same
*(p+2) = 5;  // same effect
*(a+2) = 5;  // same effect
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Arrays are not always allocated on the stack. Yhat's an implementation detail that will vary from compiler to compiler. In most cases static or global arrays will be allocated from a different memory region than the stack. Arrays of const types may be allocated from yet another region of memory –  Mark Bessey Oct 29 '09 at 6:59
I think Grumdrig meant to say "allocates 10 ints with automatic storage duration`. –  Lightness Races in Orbit May 30 '11 at 21:01
Thanks both; I've corrected my loose language. –  Grumdrig Jun 3 '11 at 16:38

If an expression of array type (such as the array name) appears in a larger expression and it isn't the operand of either the & or sizeof operators, then the type of the array expression is converted from "N-element array of T" to "pointer to T", and the value of the expression is the address of the first element in the array.

In short, the array name is not a pointer, but in most contexts it is treated as though it were a pointer.

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The array name behaves like a pointer and points to the first element of the array. Example:

int a[]={1,2,3};
printf("%p\n",a);     //result is similar to 0x7fff6fe40bc0
printf("%p\n",&a[0]); //result is similar to 0x7fff6fe40bc0

Both the print statements will give exactly same output for a machine. In my system it gave:

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Array name is like your house name and which also have a house number. Content are people living in that house.

So array name, also point to house number.

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How would you relate this answer to Pointers in C? –  Itban Saeed 32 mins ago

An array is a collection of secuential and contiguous elements in memory. In C an array's name is the index to the first element, and applying an offset you can access the rest of elements. An "index to the first element" is indeed a pointer to a memory direction.

The difference with pointer variables is that you cannot change the location the array's name is pointing to, so is similar to a const pointer (it's similar, not the same. See Mark's comment). But also that you don't need to dereference the array name to get the value if you use pointer aritmetic:

char array = "hello wordl";
char* ptr = array;

char c = array[2]; //array[2] holds the character 'l'
char *c1 = ptr[2]; //ptr[2] holds a memory direction that holds the character 'l'

So the answer is kinda 'yes'.

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An array name is not the same as a const pointer. Given: int a[10]; int *p=a; sizeof(p) and sizeof(a) are not the same. –  Mark Bessey Oct 29 '09 at 6:56
Ok, Edited for clarification –  Ricardo Amores Oct 29 '09 at 6:58
There are other differences. In general, it's best to stick to the terminology used by the C Standard, which specifically calls it a "conversion". Quote: "Except when it is the operand of the sizeof operator or the unary & operator, or is a string literal used to initialize an array, an expression that has type ‘‘array of type’’ is converted to an expression with type ‘‘pointer to type’’ that points to the initial element of the array object and is not an lvalue. If the array object has register storage class, the behavior is undefined." –  Pavel Minaev Oct 29 '09 at 7:28
in c array is nothing but constant pointer. and pointer is normal pointer.

Constant pointer means we are not allowed to change the address of array, but we can change individual character of array

in case of pointer we can modify pointer so that it point to some other data, but if we attempt to modify data to which pointer is pointing the result is undefined.

char *ptr="data1"
char arr[]="data1" 
arr[0]="b"  // allowed result is bata1
ptr[0]="b"  // not allowed
arr="newdata"  // not allowed    
ptr="newdata"  // allowed
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If an array is nothing but a constant pointer, why does sizeof arr not yield the size of a pointer? Arrays are not pointers. Read section 6 of the comp.lang.c FAQ. –  Keith Thompson Aug 4 '13 at 2:49
And try to do ptr++ alongside arr++ - the former is allowed, the latter is not. –  paxdiablo Mar 12 '14 at 8:03

First of all per K&R, the answer is yes.

At the conceptual level an array name is a ptr, they are absolutely the same thing, CONCEPTUALLY.

How a compiler implements an array is up to the compiler. This is the argument between those who say they are not the same thing and those who say they are.

A compiler could implement int a[5] as the pointer a to an unnamed chunk of storage that can contain 5 integers. But they don't. It is easier for a compiler writer to generate code for a simple array and then fudge on the pointer-ness of a.

Anyway, conceptually, the data area allocated by the int a[5]; statement can be referenced by the ptr a or it can be referenced by the pointer produced by the &a[0] statement.

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Nonsense. As has been explained at length many times, an expression of array type is implicitly converted to a pointer in most, but not all, contexts. If your statement that an array name and a pointer are the same thing were true, then given int arr[100]; the expression sizeof arr would yield the size of a pointer. It doesn't. Read section 6 of the comp.lang.c FAQ; it explains the (admittedly confusing and counterintuitive) relationship between arrays and pointers very well. –  Keith Thompson Aug 4 '13 at 2:48
Read Kernighan and Ritchie, Second Edition, Chapter Five, page 93. K & R is very clear, and NOT confusing. –  JackCColeman Aug 4 '13 at 18:58
I would like to appeal to the community on this topic. Please vote up or down on this answer. Also, I would ask Keith Thompson to write his own answer to this and other topics rather than snipe from comments. –  JackCColeman Aug 4 '13 at 19:01
I apologize for using the word "nonsense"; it was overly harsh. Otherwise, I stand by what I wrote. An array name is not "absolutely the same thing" as a pointer; that's a common misconception. I'd check K&R, but I can't find my paper copy, and the Kindle edition doesn't have page numbers. I would have posted my own answer if there weren't a correct answer already. I urge you to read at least question 6.3 before replying. –  Keith Thompson Aug 4 '13 at 20:00
@KeithThompson, both links are confusing behavior/implementation with concept. An array could be implemented so that is conforms to the concept, but they aren't because its easier to have them be just arrays rather than a named pointer to an unnamed array. –  JackCColeman Sep 1 '13 at 16:35

Array name consists of ADDRESS of its first element. Even a pointer consists of ADDRESS of an element.But a pointer is DYNAMIC.i.e,different pointer arithmetic operations like addition and subtraction can be applied on a pointer. i.e, the address which is held by a pointer can be changed from time to time. whereas an array name is STATIC,it holds ONLY the address of it's first element.No arithmetic operations can be performed on it.i.e,it's value cannot be changed.

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Why is this answer downvoted? –  Koray Tugay Apr 12 at 15:54

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