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I know that an array declaration results in a block of memory being reserved, but with an array represented by a pointer this does not. As it contains the address of the first element of the array.

But concerning how the size changes from pointing to a single long int, to a dynamically declared array of long integers, any explanation on the subject would be much appreciated.

Kind regards

Example :

long int *plint = 5; // size is the same as

long int *arr;

arr = (long int*)malloc(5*(sizeof(long int));

Is size arr is the same as size plint ?

If not how does it change size?

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up vote -4 down vote accepted

Pointer is a special variable, store address of another variable. Address of a variable is an Integer and will take size same as that of normal Integer variable. Consider following code snippet.

         char c ='a';
         char *ptr = &c; 

Here c is character will take 1 byte and ptr is char pointer variable(not char variable). So size of ptr is same as that of size of integer.


         int* ptr = (int*) malloc(10*sizeof(int));

again size of ptr is same as that of size of integer though it's pointing to block of size (10*size of int)

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Thanks. So no matter what type the array is, be it long int, char, float etc, the pointer is storing just the addresses of other types? The pointer to char variable you declared, ptr, is it storing the address of the integer dynamic memory, but points to the address of its first element? But the size is the same in all cases? – Hakim_Djzarie Jan 2 '13 at 11:42
Yeah exactly. No mater what how much bytes of memory it points, at the end it will store base address of that block which will be int. – Vallabh Patade Jan 2 '13 at 11:46
"Address of a variable is an Integer and will take size same as that of normal Integer variable." - no. – Oliver Charlesworth Jan 2 '13 at 12:02
After the malloc, the address stored in ptr is not the address of a variable. It is the address of an object, though (specifically the object that is the first element of the array allocated by malloc). That's why you should say that addresses are of objects, not only of variables. – Steve Jessop Jan 2 '13 at 12:34
size of ptr is same as that of size of integer NO, NO, NO! They are not related. For example, quite a few implementations on 64-bit machines have a 32-bit int and a 64-bit pointer. Programmers making the assumption that the size of an int and the size of pointer are the same have caused so much grief! – cdarke Jan 2 '13 at 13:03

I imagine your code looks something like this:

long *ptr = 0;
long ra[10];
printf("%d %d\n", (int)(sizeof(ptr)), (int)(sizeof(ra)) );

In this case ra is not a pointer, and its size is not the size of a pointer.

&ra[0] is a pointer to the first element, so you could do:

print("%d\n", (int)(sizeof(&ra[0])));

You'll see that it's the same size as ptr.

In most cases, when you use ra in an expression it "decays" to a pointer to its first element. But sizeof is not one of those cases.

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Well, I think you hit the nail on the head.. OP got confused between pointer and array base address.. – Krishnabhadra Jan 2 '13 at 11:07
So by pointing to e.g. long int plint = 5; // size is the same as long int *arr; arr = (long int)malloc(5*(sizeof(long int)); size arr is the same as size plint ? – Hakim_Djzarie Jan 2 '13 at 11:28
@user1890248: StackOverflow has eaten some of the asterisks in your comment. But if you declare two variables as long int *, then they have the same size. – Steve Jessop Jan 2 '13 at 11:38
Yeh just realised that, thanks. So even if it's dynamic array? If so, is it just because the pointer is storing the address to the Dynamic Allocated array? What about the pointer arr = (float )malloc(Nsizeof(float)); as a different type, as it would just store the address, is this possible? – Hakim_Djzarie Jan 2 '13 at 11:53
@user1890248: I think you need to look again at what variables actually are. They are named memory locations. They cannot ever change size according to what value is stored in that memory location. So a long* is always the same size regardless of whether the value it holds is the address of the first element of an array, or the address of something else, or not the address of anything (a null pointer). – Steve Jessop Jan 2 '13 at 11:59

The answer is size of a pointer doesn't change. Simple explanations is pointer is a variable which stores the address of another object. The actual size is platform dependent.

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@Petesh I am still confused about the edit.. Are you asking a question there? If yes put it as a different question, not edit someone's answer.. – Krishnabhadra Jan 2 '13 at 11:37
apologies, that edit was erroneous – Petesh Jan 2 '13 at 11:39
"address is an integer" and "pointer is sufficient to store an integer" are misleading, at best. In some senses, it's best not to think of pointers as integers; logically, they are completely disjoint from true integer types. – Oliver Charlesworth Jan 2 '13 at 12:00
@Krishnabhadra: To clarify, the C standard does use the term "object" (it's more general than "variable"; not all objects correspond to variables). And there's nothing that says that a pointer has to be the same size as an int (on x86-64, a pointer is 64-bit, and an int is (usually) 32-bit). – Oliver Charlesworth Jan 2 '13 at 12:31
Regarding your latest edit: the document you link to is not the C specification. – Steve Jessop Jan 2 '13 at 12:36

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