# Pointers and Arrays in C/C++

Hey guys Im trying to get down some theoretical stuff for Pointers and Arrays. I was hoping someone could reaffirm some suspicions I had with the concept of pointers and arrays.

Suppose I had something like this

``````int ia[] = {0,1,2,3,4,5};
ia[2];  // =2

int* ip = &ia[0]; // pointer ip gets the address of element 0 in array ia
ip[2]; // ??
ip[2] = 42; //
``````

Most of this code is theoretical obviously but im a bit unsure of the last 2 lines. First off is saying ip[2] the same as saying ip now points to the 2ndth element in the array? Is it equivalent to saying *ip = ia[2] ?

Im also confused with the last line. ip[2] = 42; so the 2ndth element of the object that the ip points to, that address gets the value 42? Or is that an array notation method of dereferencing? Im just a bit confused on whats going on.

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`ip[2];` is a statement that has a value and does nothing with it. It's the same as saying `i;` `3;` or `main;`. AKA it does nothing. –  Patashu Mar 21 '13 at 5:47
oh sorry I mean...how does it have the value 2 though? If ip originally points to the first element in the ia array then ip[2] value is 2...but logically im lost here... –  PresidentRFresh Mar 21 '13 at 5:48
It is a statement that does nothing. It's like writing `;` - also a statement that does nothing. It is equivalent to not writing the line at all. It does nothing to anything by doing it. –  Patashu Mar 21 '13 at 5:49
@Patashu, I don't think `main;` is valid (specifically due to main being special). Maybe replace it with `;` :) –  chris Mar 21 '13 at 5:49
@chris Have you tried it? –  Patashu Mar 21 '13 at 5:51

The following creates an array called ia and stores the numbers in curly braces in the array:

``````int ia[] = {0,1,2,3,4,5};
``````

The following in effect, does nothing:

``````ia[2];
``````

However, if I take the above statement and change as follows, it assigns the value 2 to the integer t. This is because 2 is the third element in ia, and ia[2] references the third element in ia.

``````t = ia[2];
``````

``````int ia[] = {0,1,15,3,4,5};
``````

then you would be assigning t to 15.

The following changes the value at index 2 in ia to 42:

``````ip[2] = 42;
``````

Now, ia consists of {0,1,42,3,4,5}.

This is because ia[2] is like saying *(ia + 2). If you assign ip to ia, then ip points to the first element of ia.

Similarly, ip[2] is like saying *(ip + 2). So, changing ip[2] will change ia[2], they reference the same chunk of memory.

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thanks for the explanation –  PresidentRFresh Mar 21 '13 at 6:35

`ia[n]` is a different way of writing `*(ia+n)`, therefore `int* ip = &ia[0]` is the same as `int *ip = ia`.

You are assigning `ia` to `ip`. That of course also makes `ip[n] == ia[n]` for all values of `n`.

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When you write `a[i]` it is translated to `*(a+i)` where a is the base address (basically a pointer)

Also for arrays , base address is same as address of 1st element so address of `a[0]` is same as `a` [i.e `a = &a[0]`]

So, `ip[2] = 42;` translates to `*(ip+2) = 42` Also, * gives value at that address `ip[2] = 42` means `*(ip+2) = 42` i.e value at location `(ip+2)`

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ty for the help –  PresidentRFresh Mar 21 '13 at 6:35
`a[b]` is exactly the same as `*(a + b)`. ALWAYS. So `ia[2]` is equivalent to `*(ia + 2)`, and `ip[2]` is equivalent to `*(ip + 2)`.
However, it is more subtle than that because `ia` and `ip` have very different types. `ia` is of array type; whereas `ip` is of pointer type. So they are not "the same" -- they are not even the same type of thing. It's like apples and oranges.
An array expression, used within certain contexts, can be implicitly converted to a pointer to its first element. If you wrote, `int *ip = ia;`, that would be such an implicit conversion -- `ip` now points to the first element of `ia`. It is the exact same as what you wrote, `int *ip = &ia[0];`
When you write something like `*(ia + 2)`, again, in this context the array is also implicitly converted to a pointer to its first element, kind of like `*(&ia[0] + 2)`. Since we know that `ip` points to the first element of `ia`, when you use `ia` in any context where it gets converted to a pointer, it's the same as using the value of `ip`. That's why `ia[2]` and `ip[2]` work the same.