I want to initialize a vector like we do in case of an array.


int vv[2] = {12, 43};

But when I do it like this,

vector<int> v(2) = {34, 23};


vector<int> v(2);
v = {0, 9};

it gives an error:

expected primary-expression before ‘{’ token


error: expected ‘,’ or ‘;’ before ‘=’ token



With the new C++ standard (may need special flags to be enabled on your compiler) you can simply do:

std::vector<int> v { 34,23 };
// or
// std::vector<int> v = { 34,23 };

Or even:

std::vector<int> v(2);
v = { 34,23 };

On compilers that don't support this feature (initializer lists) yet you can emulate this with an array:

int vv[2] = { 12,43 };
std::vector<int> v(&vv[0], &vv[0]+2);

Or, for the case of assignment to an existing vector:

int vv[2] = { 12,43 };
v.assign(&vv[0], &vv[0]+2);

Like James Kanze suggested, it's more robust to have functions that give you the beginning and end of an array:

template <typename T, size_t N>
T* begin(T(&arr)[N]) { return &arr[0]; }
template <typename T, size_t N>
T* end(T(&arr)[N]) { return &arr[0]+N; }

And then you can do this without having to repeat the size all over:

int vv[] = { 12,43 };
std::vector<int> v(begin(vv), end(vv));
  • 21
    Or simply: std::vector<int> v(vv, vv+2); Jan 18 '12 at 7:25
  • 11
    Or more robustly: std::vector<int> v(begin(w), end(w);. The begin and end are standard in C++11 (but then you don't need them), but should be in your tool kit otherwise. Jan 18 '12 at 9:22
  • 2
    I know this is an old question, but what exactly are you doing here: std::vector<int> v(&vv[0], &vv[0]+2); ? What I see is, you're constructing a vector with room for &vv[0] (which will be a memory address) values, and filling each space in the vector with &vv[0]+2... That would be using constructor 2 on this page: en.cppreference.com/w/cpp/container/vector/vector without supplying the third argument, which defaults to Allocator(). I know I'm missing something. Jun 22 '13 at 19:45
  • 2
    I think std::vector<int> v(&vv[0], &vv[0]+2) is invoking the 4th constructor on that page, actually. The constructor can take the first and last element in a range and create a vector with everything in between. The tipoff is the & will result in memory addresses. Jun 23 '13 at 13:43
  • 1
    @qed We never delete vectors by hand because they have a destructor that automatically deletes the stuff on the heap, and the destructor is automatically called when the vector goes out of scope.
    – Buge
    Aug 4 '14 at 15:28

You can also do like this:

template <typename T>
class make_vector {
  typedef make_vector<T> my_type;
  my_type& operator<< (const T& val) {
    return *this;
  operator std::vector<T>() const {
    return data_;
  std::vector<T> data_;

And use it like this:

std::vector<int> v = make_vector<int>() << 1 << 2 << 3;
  • 1
    Is it possible to move data_ to v instead of calling the copy constructor?
    – Per
    Feb 21 '18 at 14:19
  • 2
    Hello Per! I suppose you do like this (warning, untested): operator std::vector<T>&& () { return std::move(data_); } Feb 22 '18 at 0:22

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