How do I convert a std::vector<double> to a double array[]?

  • 9
    Kinda begs the question of why? You can access a vector as an array. What does an array do that a vector does not? – Michael Dorgan May 27 '10 at 17:17
  • 117
    @Michael The typical use case I have is using a vector in my own code and needing to call a third-party function that takes an array – Michael Mrozek May 27 '10 at 17:20
  • 8
    The terminology being thrown around is confusing. A pointer isn't an array. Do we want a pointer to the first element of an array, or an array? – GManNickG May 27 '10 at 17:21
  • @MichaelDorgan incredibly, sometimes is necessary. For example when passing as argument to a CUDA kernel – KansaiRobot Jun 11 at 10:37
  • Zombie comment from 11 years ago - I love it :) – Michael Dorgan Jun 11 at 18:10

10 Answers 10


There's a fairly simple trick to do so, since the spec now guarantees vectors store their elements contiguously:

std::vector<double> v;
double* a = &v[0];
  • 34
    @ganuke You're not copying, you're making a pointer that points to the actual array the vector is using internally. If you want to copy GMan's answer explains how – Michael Mrozek May 27 '10 at 17:22
  • 4
    @ganuke: What is "the array"? You need to provide more information. What's the big picture? – GManNickG May 27 '10 at 17:22
  • 6
    @ganuke You don't, you just need a double* that points to the same data. This answer works for exactly that case – Michael Mrozek May 27 '10 at 17:36
  • 6
    @guneykayim The vector owns that memory, you shouldn't free it – Michael Mrozek May 30 '14 at 14:35
  • 37
    std::vector<double> v; double* a = v.data(); – sinoTrinity Nov 10 '15 at 7:38

What for? You need to clarify: Do you need a pointer to the first element of an array, or an array?

If you're calling an API function that expects the former, you can do do_something(&v[0], v.size()), where v is a vector of doubles. The elements of a vector are contiguous.

Otherwise, you just have to copy each element:

double arr[100];
std::copy(v.begin(), v.end(), arr);

Ensure not only thar arr is big enough, but that arr gets filled up, or you have uninitialized values.

  • 16
    Note: use v.size() to get the number of elements for the new array: double arr[v.size()]; – rbaleksandar Dec 25 '13 at 21:09
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    @rbaleksandar: Arrays can't have a non-constant expression size. – GManNickG Dec 26 '13 at 6:04
  • @GManNickG : It works but I think there is some misunderstanding here. Imagine the following: you have a class with a bunch of pointers of various types that have to point to arrays, which are not known at the time you define your class and which are later on created by flushing various vectors and using their size-parameter to determine how much space is to be used. Another example: a simple function void arrayTest(unsigned int arrSize), that creates an array (short arr[arrSize];) in it by using its function-parameter for the size. – rbaleksandar Dec 26 '13 at 11:40
  • 1
    @rbaleksandar No misunderstanding; in C++11 and prior, array sizes must be integral constant expressions. Your function example is a common use for VLAs in C, but only supported by (nonstandard) extension in C++. It may come to C++14 though: stackoverflow.com/a/17318040/87234. But as of now, it's simply not a standard option. – GManNickG Dec 26 '13 at 12:54
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    @GManNickG I think @Jet is saying that if you want to convert a vector to an array, and you intend to size the array using the size() function of the std:vector you'll need to use new or malloc to do that. As it was already pointed out (by you) that double arr[v.size()] is not valid. Using vector in place of new is a good idea, but the entire point of the question is how you can convert a vector into an array. – RyanP May 28 '15 at 13:30

For C++11, vector.data() will do the trick.

  • 11
    This seems like the most elegant – Luke Aug 1 '19 at 2:21
vector<double> thevector;
double *thearray = &thevector[0];

This is guaranteed to work by the standard, however there are some caveats: in particular take care to only use thearray while thevector is in scope.

  • 4
    ...and make sure the vector isn't empty(), otherwise this would invoke the dreaded UB. – sbi May 27 '10 at 18:39
  • 1
    (undefined behavior) – Robin Davies Feb 7 at 12:39

Vectors effectively are arrays under the skin. If you have a function:

void f( double a[]);

you can call it like this:

vector <double> v;
v.push_back( 1.23 )
f( &v[0] );

You should not ever need to convert a vector into an actual array instance.

  • 1
    I think you meant f( &v[0] ); for your last line – Michael Mrozek May 27 '10 at 17:17

As to std::vector<int> vec, vec to get int*, you can use two method:

  1. int* arr = &vec[0];

  2. int* arr = vec.data();

If you want to convert any type T vector to T* array, just replace the above int to T.

I will show you why does the above two works, for good understanding?

std::vector is a dynamic array essentially.

Main data member as below:

template <class T, class Alloc = allocator<T>>
class vector{
        typedef T          value_type;
        typedef T*         iterator;
        typedef T*         pointer;
        pointer start_;
        pointer finish_;
        pointer end_of_storage_;

        vector():start_(0), finish_(0), end_of_storage_(0){}

The range (start_, end_of_storage_) is all the array memory the vector allocate;

The range(start_, finish_) is all the array memory the vector used;

The range(finish_, end_of_storage_) is the backup array memory.

For example, as to a vector vec. which has {9, 9, 1, 2, 3, 4} is pointer may like the below.

enter image description here

So &vec[0] = start_ (address.) (start_ is equivalent to int* array head)

In c++11 the data() member function just return start_

pointer data()
     return start_; //(equivalent to `value_type*`, array head)

We can do this using data() method. C++11 provides this method.

Code Snippet

using namespace std;

int main()

  vector<int>v = {7, 8, 9, 10, 11};
  int *arr = v.data();

  for(int i=0; i<v.size(); i++)
    cout<<arr[i]<<" ";

  return 0;
std::vector<double> vec;
double* arr = vec.data();

If you have a function, then you probably need this:foo(&array[0], array.size());. If you managed to get into a situation where you need an array then you need to refactor, vectors are basically extended arrays, you should always use them.


You can do some what like this

vector <int> id;
vector <double> v;

if(id.size() > 0)
    for(int i = 0; i < id.size(); i++)
        for(int j = 0; j < id.size(); j++)
            double x = v[i][j];
            cout << x << endl;

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