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In C++ I understand that in order to create a dynamic array you need to use vectors. However I have a problem when I need to find information I put in the vector.

For example: Lets say I have a simple vector that stores the name of a person and a small message the wrote. In the vector how do I find where Bill is located.

I was also trying to understand how to do this in PHP when I posted this question.

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migrated from programmers.stackexchange.com Feb 10 '13 at 20:59

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Your question is somewhat confusing. The example code you provide with the array looks like you want to use a 2-dimensional array, but your question seems to indicate you're asking about using a 1D std::vector. Also, what do you mean by "determine the size of a vector based on a variable"? –  Charles Salvia Feb 10 '13 at 18:54
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Indeed you seam confused. Let me try to help you.

One thing that is maybe confusing you: std::vector is not a geometric vector. It's only a sequence of data of the same type that is contiguous in memory. So it's like an array.

a) Determine the size of a vector based on a variable. For example if I was using an array it would look something like array [x][y] ( I know it's not possible to do this). How would I do this with a vector

std::vector is basically a automatically managed dynamic array.

It means that it IS an array inside, but it's managed by code that will make sure that array grows (gets bigger) when you try to add more data than it current capacity can hold.

Actually, std::vector is a class template. It means that it's not a real class, it's code that the compiler will use to generate itself a real class. If I say

std::vector<int> my_ints; // this is a vector of ints

This vector can only hold ints. And then:

std::vector<std::string> name_list;

this one hold std::string objects.

As I was saying, inside, it's only code to manage an array dynamically. You can think the previous examples as if it was like that:

    unsigned long size; // count of elements contained in this container
    unsigned long capacity; // count of elements that the memory allocated by the array can hold
    int* array; // array containing the values, created using new, destroyed using delete

This is an oversimplified view of how it is inside, so don't assume it's exactly like that, but it might be useful.

Now, when you add values, the value is copied in the memory of the array, in an element that is not used yet (through push_back() for example) or writing over an element already existing (using insert() for example).

If you add a value and the capacity of the vector is not enough to hold all values, then the the vector will automatically grow: it will create a much bigger array, copy it's current values inside, copy the additional value too, then delete the array it had before. It's important to understand this: if a vector grows, then you can't assume that it's data is always at the same adress in memory, so pointers to it's data can't be trusted.

b) second how would I using the push back command to store the value of a variable inside a specific spot. Again if I was using an array it'd be like array[x][y] += q. Where x and y are the spot in the array and q is the value.

You don't use push_back() to add a value between two values, you use insert().

The syntaxe array[x][y] += q Will certainly not do what you describe. It will add q to the value at the position array[x][y].

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Arrays are different to std::vector because they are of a fixed size. All elements of the array exist while the array exists. When you create a std::vector with its default constructor, it is empty. It contains no elements, so you cannot index any elements.

However, std::vector does have a constructor that takes the initial size. If you pass a single int argument to the std::vector constructor, it will default initialise that many elements. For example:

std::vector<int> v(10); // Will have 10 ints

If you want the equivalent of a 2D array, then you'll need a std::vector<std::vector<T>>. If you want to construct it with a specific size, you will need specify the size of the outer std::vector as above, and pass it the std::vector that each element should be initialised to. For example, if you want a 10x20 vector:

// This will have 10x20 ints
std::vector<std::vector<int>> v(10, std::vector<int>(20));

Once these elements exist, you can index them just as you would an array:

int value = v[x][y];

It's worth noting that C++11 introduces std::array which has a compile-time fixed size. You could use it like this:

std::array<std::array<int, 20>, 10> arr;

However, you cannot use this if you want your array size to be determined by a variable. The dimensions must be compile-time constants.

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