# Vector. How to set the maximum number of elements and find the current count?

I want to create a vector with a maximum number of elements 48, and I want to know at any time the current number of elements in the vector.

I use this code:

.h

``````std::vector< CPPobject* >vec;
``````

.mm

``````int maxCountElementInVec = 48;
vec.resize( maxCountElementInVec );
int countElement  = sizeof( vec ) / sizeof( vec[0] );

printf("%d ",countElement); // return 3
``````

<...>

``````vec.push_back( some_cpp_obj );
int countElement  = sizeof( vec ) / sizeof( vec[0] );
if( countElement > maxCountElementInVec ) printf("Evrika");
printf("%d ",countElement); // return 3
``````

CountElement always is 3

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Please a) forget everything you know about C, b) repeat to yourself that C is not the same as C++ for a week, c) read a good C++ book. `vector` is a dynamic container, and `sizeof` is a static operation. –  Kerrek SB Feb 12 '12 at 12:34

Getting the number of elements in the vector is very simple. Just call `vec.size()`. You can not restrict the vector not to resize over the reserved size.

What you query is the size of the structure of vector over the size of a simple pointer. The elements of the vector are not part of this size - thus you get constant size.

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You cannot set the maximum number of elements.

The length however is retrieved with

``````int length = myVector.size();
``````
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I don't think `sizeof` on STL vectors is doing something very useful here. As pointed out by Kerrek in a comment, it does not evaluate to something that is proportional to the number of elements in the vector. Just use `size()` to get the current number of elements held in the vector.

You could switch to EASTL, which provides `fixed_vector` which is just like a vector except all memory is allocated up-front, so it can't grow to more than what you specify. It still maintains a `size()` tracking how many elements have been inserted, though.

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Of course `sizeof` is well defined. It gives you the size of the vector object, which is unrelated to the size of the memory that is managed by the vector object. –  Kerrek SB Feb 12 '12 at 12:33
@KerrekSB Thanks, I put that the wrong way. –  unwind Feb 12 '12 at 12:45

Finding the number of elements can be achieved with the `.size()` method.

For setting a limit, you can create a wrapper over `std::vector`:

``````template<typename T>
class MyVector : public std::vector<T>
{
int _maxSize;
public:
void setMaxSize(int maxSize) {_maxSize = maxSize;}
void push_back(const T& element)
{
if ( ! size() >= size() )
std::vector::push_back(element);
else
{
//disallow - throw exception or whatever
}
}
};
``````
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Wrapper Not Good. That open the door for memory leak because std::vector have no virtual destructor.

Let leak some memory:

``````// Construct std::vector & MyVector
std::vector * v = dynamic_cast<std::vector *>( new MyVector() );
// Destruct only std::vector
delete v;
``````

That's construction of MyVector without a call to it's Destructor.

Let go crazy:

``````MyVector * mv = new MyVector(); // Construct std::vector & MyVector

std::vector * v = dynamic_cast<std::vector *>( mv );
delete v; // Destruct only std::vector

mv.resize(74); // Usage of a partially destroy object.
``````

That's use a partially destroy object. Let's spin the wheel of trouble!

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