# How does a pointer to a vector work?

If I have the following:

``````vector<int> v(4,0);
vector<int>* p = &v;
int element = p[0];
``````

Will element be the same value as `v[0]`? I'm getting confused here about the `[]` operator.

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Wouldn't it be `p->at(0)`...? (Confused by current answer.) – Mateen Ulhaq Nov 17 '11 at 2:54
@muntoo yes you could do it that way, and this question is misleading because it presents the above code as if it's valid, when it's not and won't compile. – Seth Carnegie Nov 17 '11 at 2:55

What you have is not even valid C++. `p[0]` is the same as `*p`, which is of type `vector<int>` and thus not convertible to `int`.

The `[]`-notation merely suggests that you think of `p` as an array of vectors, and you are accessing the array's first element, which is `v`. More generally, for any pointer `p`, the notation `p[k]` is identical to `*(p + k)` (in fact to a fault, as you can say `a[5]` and `5[a]` interchangeably).

So if you really wanted to, you could write `p[0][i]` for the `i`th element of the vector, though it is more customary to just write `(*p)[i]` (parentheses needed for the correct precedence).

When I first skimmed over the question, I thought you might be looking for some clever hack and wanted to know whether `**(int**)(p)` was equal to `v[0]`. That is indeed plausible, as the first element of the vector's data structure is often the pointer to the vector's internal buffer. Don't use this at home.

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For any pointer `p`, `p[0]` is the same as `*p`. (More generally, `p[i]` is a special notation for `*(p+i)`. Fun fact: you can also write `i[p]`, because `*(p+i) == *(i+p)`. C and C++ are weird like that.) So in your case, where `p` is a pointer to `v`, you're essentially writing `int element = v;`. It won't work, because the right-hand-side is a vector.

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No, p it's a pointer to the vector, not the content! If you try to compile, you get something like

``````error: cannot convert ‘std::vector<int>’ to ‘int’ in initialization
``````

from your compiler. Use `(*p)[0]` to get the value.

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