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If I have:

int i=5;
int *ip=&i;

Why do I need ip and *ip for anything? If I wanted to change "i", would it not be easier to do i=something else; instead of *ip=something else;?

And if I wanted to get the memory address of i, would it not be easier to just do &i instead of setting up a pointer variable and assigning it to &i just to use ip?

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closed as not constructive by Bob Kaufman, Jack Maney, zzzzBov, T.Rob, Jens Gustedt Dec 27 '11 at 23:12

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I can provide only one proper solution to this question. youtube.com/watch?v=6pmWojisM_E (Yes, this video is actually relevant to the question at hand) – Joshua Weinberg Dec 27 '11 at 19:44
@Zeychin, obviously that is why i asked this question... – user947659 Dec 27 '11 at 19:53
up vote 4 down vote accepted

You pick here a very contrived example. There are many uses for pointers! Let's pick a common example that you're sure to encounter quickly when writing any C program. The char pointer. char pointers, or char * are C's version of strings from other languages. They are strings, but they have some caveats.

If you want a string in C, you have two choices. You can either have a static char[] array, like so:

char a[] = "abc";
char *b = "cde";

You can't change the lengths of these, and there are some restrictions on the use of these that I can't recall at the moment. Your second option is this:

char *c = calloc(1, 50);

Note that you're allocating c dynamically, and that 50 could just as well be anything, and you can pass it in as a variable. Quite useful when you don't know how much room you need for your string, correct? But that's only doable with pointers!

Also, you'll often see pointers used in conjunction with structs. When you need to pass a struct around in a program, you often won't pass the whole struct (by value), but a pointer to it (by reference). This avoids having the whole struct copied each time it's passed into a function, and also simplifies some operations on it. So you'd usually have this:

struct test a;
void modify_struct(struct *test test);

Rather than this:

struct test a;
void modify_struct(struct test test);
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From my system:

 qsort(void *base, size_t nel, size_t width,
     int (*compar)(const void *, const void *));

The qsort() [...] functions sort an array of nel objects, the initial member of which is pointed to by base. The size of each object is specified by width.

What's your pointer-free solution for a generic sorting function?

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You need pointers if you want to allow a called function to modify the caller's data, for example. Also, pointers are needed to implement various data structures (linked lists, trees, ...).

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Well, you could probably do it without pointers (pass the entire data rather than a reference to it, and then redefine the data in the caller after the callee returns), but it would be very inefficient. – The111 Dec 27 '11 at 20:34
Up to a point, that would indeed work, returning a struct containing all data that could possibly be legitimately modified by the callee. It would get rather awkward with arrays or lists, though, considering C's limited support of polymorphism and parameterised types. – Daniel Fischer Dec 27 '11 at 20:45

Pointers have many uses, not just using them as another way of accessing a variable. For example, pointers is how a vector works; when you type:

int numbers[5];

What you have is a pointer to a memory address with space allocated for five int. numbers[x] means getting the value of the memory at numbers + sizeof(int)*x, i.e.

*(numbers + sizeof(int)*x) // This is wrong, as pointed out below, this is actually numbers[x*sizeof(int)]
*(numbers + x)             // This is the correct example

You should read Pointers for a good list of uses.

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-1 Your second snippet is wrong... Pointers increment in multiples of the size of the type so you are not getting numbers[x] you are getting numbers[sizeof(int)*x] which is incorrect. What is equivalent to numbers[x] is *(numbers + x). – Marlon Dec 27 '11 at 20:12
You're right, I made a mistake. – Rellikiox Dec 27 '11 at 20:35

C is a language designed to give full control of the underlying machine to the programmer. It is not meant to hide away anything, if you do not need the full control you are probably better of writing your programs in another language offering more support.

A great example of when you need full control is device drivers, typically you communicate with the device reading and writing a specific memory location. This can not be achieved with variables, as they are not always placed in the same memory location.

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