If i have in C++ a pointer to a vector:

vector<int>* vecPtr;

And i'd like to access an element of the vector, then i can do this by dereferncing the vector:

int a = (*vecPtr)[i];

but will this dereferencing actually create a copy of my vector on the stack? let's say the vector stores 10000 ints, will by dereferencing the vecPtr 10000 ints be copied?


  • 5
    A pointer to a vector is a fairly uncommon thing - consider if you should really have a reference or a vector value. – anon Dec 15 '09 at 22:12
  • 2
    It's not uncommon at all, a reference to a vector is exactly the same as a pointer to a vector as far as the generated machine code is concerned. Anyone who thinks there's any meaningful difference between pointers and references is fooling themselves. – Joe Dec 7 '17 at 13:50

10000 ints will not be copied. Dereferencing is very cheap.

To make it clear you can rewrite

int a = (*vecPtr)[i];


vector<int>& vecRef = *vecPtr; // vector is not copied here
int a = vecRef[i];

In addition, if you are afraid that the whole data stored in vector will be located on the stack and you use vector<int>* instead of vector<int> to avoid this: this is not the case. Actually only a fixed amount of memory is used on the stack (about 16-20 bytes depending on the implementation), independently of the number of elements stored in the vector. The vector itself allocates memory and stores elements on the heap.

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    Wow, I never knew that it was legal to have references as data types (vector<int>& vecRef). I always thought this was restricted to function parameters. This is good info to have! – Amil May 13 '12 at 21:22
  • if you don't put the parentheses around the (*vecPtr) you will get compiler error: error: no match for ‘operator*’ (operand type is ‘...... template related long text not shown – Kemin Zhou Jul 28 '17 at 18:27
  • Good to know. On the other hand vector<int> copied = *vecPtr; does seem to copy the entire vector. – Pixel Feb 5 at 10:38

No, nothing will be copied; dereferencing just tells C++ that you want to invoke operator[] on the vector, not on your pointer, vecPtr. If you didn't dereference, C++ would try to look for an operator[] defined on the std::vector<int>* type.

This can get really confusing, since operator[] is defined for all pointer types, but it amounts to offsetting the pointer as though it pointed to an array of vector<int>. If you'd really only allocated a single vector there, then for any index other than 0, the expression evaluates to a reference to garbage, so you'll get either a segfault or something you did not expect.

In general, accessing vectors through a pointer is a pain, and the (*vecPtr)[index] syntax is awkward (but better than vecPtr->operator[](index)). Instead, you can use:


This actually checks ranges, unlike operator[], so if you don't want to pay the price for checking if index is in bounds, you're stuck with (*vecPtr)[].

  • 1
    Minor clarification. operator[] is defined for the std::vector<int>*, because operator[] is defined for any pointer. But it returns no int as expected but reference to the std::vector<int> with trash inside and which can not be assigned to int. – sergtk Dec 15 '09 at 22:27
  • Please does this apply when want to pass the vector to function that expects const std::vector<int>& as a parameter? – Tomáš Zato - Reinstate Monica Jun 1 '16 at 11:30
  • is at as fast as accessing element by the index? – Arsen Zahray Nov 8 '20 at 19:13

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