I can create an array and initialize it like this:

int a[] = {10, 20, 30};

How do I create a std::vector and initialize it similarly elegant?

The best way I know is:

std::vector<int> ints;


Is there a better way?

  • 1
    if you are not going to change the size of ints after initialization, consider using tr1 array. – zr. Feb 10 '10 at 11:21
  • @zr, you have me curious... if I needed fixed size, could I not use plain old arrays themselves? Looking at tr1 array right now... – Agnel Kurian Feb 10 '10 at 11:53
  • 2
    tr1::array is useful because ordinary arrays don't provide the interface of STL containers – Manuel Feb 10 '10 at 12:21
  • Changed the title to make this explicitly a C++03 question. It seemed easier than going through and fixing all the answers to make sense with the new standard C++. – T.E.D. Feb 24 '14 at 16:12
  • This is called list initialization. – Alan Dawkins Aug 11 at 8:00

25 Answers 25

up vote 486 down vote accepted

One method would be to use the array to initialize the vector

static const int arr[] = {16,2,77,29};
vector<int> vec (arr, arr + sizeof(arr) / sizeof(arr[0]) );
  • 7
    @Agnel It will work fine without static or const, however they both make it more explicit as to how it should be used and allow the compiler to make additional optimizations. – Yacoby Feb 10 '10 at 16:55
  • 54
    I didn't downvoate this, but I was tempted. Mainly because this saves you almost nothing over just using the initialized array in the first place. However, that's really C++'s fault, not yours. – T.E.D. May 3 '11 at 18:50
  • 2
    Can you explain why you're using those parameters when defining the vec vector. – DomX23 Jan 27 '12 at 5:23
  • 9
    sizeof(array) is one of the few exceptions that allows to get the total size of elements of the array and NOT the arr pointer dimension. So basically he's using vector(pointer_to_first_element, pointer_to_first_element + size_in_bytes_of_the_whole_array / size_of_one_element) that is: vector(pointer_to_first_element, pointer_after_final_element). The type is already given with the <int>, so the vector knows how much is one element. Remember that iterators can be treated as pointers so you're basically using the vector(iterator begin, iterator end) constructor – Johnny Pauling Aug 17 '12 at 12:58
  • 9
    @T.E.D: Sometimes you need to modify the resulting vector. For example, you may need to always have some default parameters and sometimes add a few customized to them. – Oleg V. Kozlyuk Feb 18 '14 at 9:24

If your compiler supports C++11, you can simply do:

std::vector<int> v = {1, 2, 3, 4};

This is available in GCC as of version 4.4. Unfortunately, VC++ 2010 seems to be lagging behind in this respect.

Alternatively, the Boost.Assign library uses non-macro magic to allow the following:

#include <boost/assign/list_of.hpp>
std::vector<int> v = boost::assign::list_of(1)(2)(3)(4);


#include <boost/assign/std/vector.hpp>
using namespace boost::assign;
std::vector<int> v;
v += 1, 2, 3, 4;

But keep in mind that this has some overhead (basically, list_of constructs a std::deque under the hood) so for performance-critical code you'd be better off doing as Yacoby says.

  • Since vectors are self-sizing, would it be ok to initialize it as empty too? Like in the constructor: this->vect = {}; ? – Azurespot Mar 8 at 2:03
  • 2
    @Azurespot You can just initialise it, and it will be empty: std::vector<T> vector; – Luke Fisk-Lennon Apr 5 at 23:33

In C++0x you will be able to do it in the same way that you did with an array, but not in the current standard.

With only language support you can use:

int tmp[] = { 10, 20, 30 };
std::vector<int> v( tmp, tmp+3 ); // use some utility to avoid hardcoding the size here

If you can add other libraries you could try boost::assignment:

vector<int> v = list_of(10)(20)(30);

To avoid hardcoding the size of an array:

// option 1, typesafe, not a compile time constant
template <typename T, std::size_t N>
inline std::size_t size_of_array( T (&)[N] ) {
   return N;
// option 2, not typesafe, compile time constant
#define ARRAY_SIZE(x) (sizeof(x) / sizeof(x[0]))

// option 3, typesafe, compile time constant
template <typename T, std::size_t N>
char (&sizeof_array( T(&)[N] ))[N];    // declared, undefined
#define ARRAY_SIZE(x) sizeof(sizeof_array(x))
  • Of course I didn't downvote but I have a question anyway: when is the size of an array not a compile time constant? I.e., in which cases would you use the first solution in your second snippet as opposed to the third one? – Manuel Feb 10 '10 at 11:26
  • +vote from my side. In C++0x you could make a constexpr of option 1. But then again, this won't be used anymore then :S – Sebastian Mach Feb 10 '10 at 11:36
  • 2
    @Manuel, the size of the array is part of the type, and as such it is a compile time constant. Now, option 1 uses that compile time constant 'N' as return value for a function. The return of a function is not a compile time, but runtime value, even if it will probably get inlined as the constant value at the place of call. The difference is that you cannot do: int another[size_of_array(array)], while you can do int another[ARRAY_SIZE(array)]. – David Rodríguez - dribeas Feb 10 '10 at 11:45
  • @Manuel: incomplete array types also exist, like int[]. I can put a declaration of such an array in a header and define it somewhere else (with completed type). Then, the size is not known during compilation of all other traslation units that just include the header. Array-to-pointer decay still works, sizeof does not. – sellibitze Feb 10 '10 at 12:48
  • In option 3: I don't really get what you mean with "declared, undefined "? So the variable will not take additional memory? – To1ne Jun 6 '11 at 6:40

Just thought I'd toss in my $0.02. I tend to declare this:

template< typename T, size_t N >
std::vector<T> makeVector( const T (&data)[N] )
    return std::vector<T>(data, data+N);

in a utility header somewhere and then all that's required is:

const double values[] = { 2.0, 1.0, 42.0, -7 };
std::vector<double> array = makeVector(values);

But I can't wait for C++0x. I'm stuck because my code must also compile in Visual Studio. Boo.

  • 1
    This technique can also be used to overload a function to accept an array with typed size. – Andres Riofrio Oct 8 '12 at 22:03
  • 3
    Can you explain the const T (&data)[N] part? How is the size of the array deduced in your call makeVector(values)? – Patryk Mar 12 '15 at 15:04

In C++11:

#include <vector>
using std::vector;
vector<int> vec1 { 10, 20, 30 };
// or
vector<int> vec2 = { 10, 20, 30 };

Using boost list_of:

#include <vector>
#include <boost/assign/list_of.hpp>
using std::vector;
vector<int> vec = boost::assign::list_of(10)(20)(30);

Using boost assign:

#include <vector>
#include <boost/assign/std/vector.hpp>
using std::vector;
vector<int> vec;
vec += 10, 20, 30;

Conventional STL:

#include <vector>
using std::vector;
static const int arr[] = {10,20,30};
vector<int> vec (arr, arr + sizeof(arr) / sizeof(arr[0]) );

Conventional STL with generic macros:

#include <vector>
#define ARRAY_SIZE(ar) (sizeof(ar) / sizeof(ar[0])
#define ARRAY_END(ar) (ar + ARRAY_SIZE(ar))
using std::vector;
static const int arr[] = {10,20,30};
vector<int> vec (arr, ARRAY_END(arr));

Conventional STL with a vector initializer macro:

#include <vector>
#define INIT_FROM_ARRAY(ar) (ar, ar + sizeof(ar) / sizeof(ar[0])
using std::vector;
static const int arr[] = {10,20,30};
vector<int> vec INIT_FROM_ARRAY(arr);
  • 1
    C++11 also support std::begin and std::end for array, so a vector can also be initialized like static const int arr[] = {10,20,30}; vector<int> vec(begin(arr), end(arr));. – Jaege Dec 17 '16 at 4:57

For God's sake, use the modern C++[11,14,17,...] way:

std::vector<int> vec = {10,20,30};

The old way of looping over a variable-length array or using sizeof() is truly terrible on the eyes and completely unnecessary in terms of mental overhead. Yuck.

  • In fairness, this was originally a C++03 question, but I hope that people/companies adopt the new standards. C++ still needs a variable-length array (VLA) implementation in the standard library similar to what is available in Eigen and Boost. – Adam Erickson Sep 16 at 20:55

Before C++ 11 :

Method 1=>

vector<int> v(arr, arr + sizeof(arr)/sizeof(arr[0]));

Method 2 =>


C++ 11 onward below is also possible

vector<int>v = {1, 3, 5, 7};

Starting with:

int a[] = {10, 20, 30}; //i'm assuming a is just a placeholder

If you don't have a C++11 compiler and you don't want to use boost:

const int a[] = {10, 20, 30};
const std::vector<int> ints(a,a+sizeof(a)/sizeof(int)); //make it const if you can

If you don't have a C++11 compiler and can use boost:

#include <boost/assign.hpp>
const std::vector<int> ints = boost::assign::list_of(10)(20)(30);

If you do have a C++11 compiler:

const std::vector<int> ints = {10,20,30};

The easiest way to do it is:

vector<int> ints = {10, 20, 30};
  • 3
    Which compiler? Are you using C++11 here? – Agnel Kurian Jan 26 '13 at 6:23
  • g++ 4.6.3 with -std=c++0x. – Paul Baltescu Jan 28 '13 at 15:56

For vector initialisation -

vector<int> v = {10,20,30}

can be done if you have c++11 compiler.

Else, you can have an array of the data and then use a for loop.

int array[] = {10,20,30}
for(int i=0; i<sizeof(array); i++)

Apart from these, there are various other ways described above using some code. In my opinion, these ways are easy to remember and quick to write.

If your compiler supports Variadic macros (which is true for most modern compilers), then you can use the following macro to turn vector initialization into a one-liner:

#define INIT_VECTOR(type, name, ...) \
static const type name##_a[] = __VA_ARGS__; \
vector<type> name(name##_a, name##_a + sizeof(name##_a) / sizeof(*name##_a))

With this macro, you can define an initialized vector with code like this:

INIT_VECTOR(int, my_vector, {1, 2, 3, 4});

This would create a new vector of ints named my_vector with the elements 1, 2, 3, 4.

If you don't want to use boost, but want to enjoy syntax like

std::vector<int> v;

just include this chunk of code

template <class T> class vector_inserter{
    std::vector<T>& v;
    vector_inserter(std::vector<T>& v):v(v){}
    vector_inserter& operator,(const T& val){v.push_back(val);return *this;}
template <class T> vector_inserter<T> operator+=(std::vector<T>& v,const T& x){
    return vector_inserter<T>(v),x;
  • 1
    I haven't been able to figure out how to use this code, but it looks interesting. – Daniel Buckmaster Apr 3 '12 at 10:06
  • It's like one of the comment above said. Just overloading += and comma operator. Putting parenthesis for clarity : ((((v+=1),2),3),4),5) This is how it works: First, vector<T> += T returns a vector_inserter lets call it vi which encapsulate the original vector then vi,T add T to original vector which vi encapsulate and return it self so that we can do vi,T again. – Piti Ongmongkolkul Apr 4 '12 at 1:10
  • this code didn't worked correctly on gcc 4.2.1 i think because of returning reference to a local variable inside += operator but idea is exellent. i edited code and there appears one more copy constructor. flow is now -> += -> ctor -> comma -> copy -> dtor -> comma ...... -> comma -> dtor. – bobenko Jun 13 '12 at 12:56
  • 6
    -1 operator += should not return a reference to a locally constructed object. – Petter Jul 31 '13 at 19:32
  • I'd have probably overloaded << instead of +=. At least << already has vague side effect rules because of bit shifts and cout – Speed8ump Feb 23 at 18:22

you can do that using boost::assign.

vector<int> values;  
values += 1,2,3,4,5,6,7,8,9;

detail here

  • 15
    I haven't seen a worse case of operator overloading abuse in a long time. Does the += there tack on 1,2,3,4.. to the end of values, or does it add 1 to the 1st element, 2 to the 2nd element, 3 to the 3rd element (as syntax like this should in MATLAB-like languages) – bobobobo Nov 9 '13 at 20:42

In C++11:

static const int a[] = {10, 20, 30};
vector<int> vec (begin(a), end(a));
  • 21
    If you're using C++11 already, you may as well go for the direct approach - vector<int> arr = {10, 20, 30};. – Dukeling Feb 24 '15 at 13:09
  • Actually I had an incoming int[] (some C lib) and wanted to push into a vector (C++ lib). This answer helped, the rest didn't ;-) – Nebula Jul 20 '15 at 7:52

I build my own solution using va_arg. This solution is C98 compliant.

#include <cstdarg>
#include <iostream>
#include <vector>

template <typename T>
std::vector<T> initVector (int len, ...)
  std::vector<T> v;
  va_list vl;
  va_start(vl, len);
  for (int i = 0; i < len; ++i)
    v.push_back(va_arg(vl, T));
  return v;

int main ()
  std::vector<int> v = initVector<int> (7,702,422,631,834,892,104,772);
  for (std::vector<int>::const_iterator it = v.begin() ; it != v.end(); ++it)
    std::cout << *it << std::endl;
  return 0;


A more recent duplicate question has this answer by Viktor Sehr. For me, it is compact, visually appealing (looks like you are 'shoving' the values in), doesn't require c++11 or a third party module, and avoids using an extra (written) variable. Below is how I am using it with a few changes. I may switch to extending the function of vector and/or va_arg in the future intead.

// Based on answer by "Viktor Sehr" on Stack Overflow
// https://stackoverflow.com/a/8907356
template <typename T>
class mkvec {
    typedef mkvec<T> my_type;
    my_type& operator<< (const T& val) {
        return *this;
    my_type& operator<< (const std::vector<T>& inVector) {
        this->data_.reserve(this->data_.size() + inVector.size());
        this->data_.insert(this->data_.end(), inVector.begin(), inVector.end());
        return *this;
    operator std::vector<T>() const {
        return data_;
    std::vector<T> data_;

std::vector<int32_t>    vec1;
std::vector<int32_t>    vec2;

vec1 = mkvec<int32_t>() << 5 << 8 << 19 << 79;  
// vec1 = (5,8,19,79)
vec2 = mkvec<int32_t>() << 1 << 2 << 3 << vec1 << 10 << 11 << 12;  
// vec2 = (1,2,3,5,8,19,79,10,11,12)

Below methods can be used to initialize the vector in c++.

  1. int arr[] = {1, 3, 5, 6}; vector<int> v(arr, arr + sizeof(arr)/sizeof(arr[0]));

  2. vector<int>v; v.push_back(1); v.push_back(2); v.push_back(3); and so on

  3. vector<int>v = {1, 3, 5, 7};

The third one is allowed only in C++11 onwards.

If you want something on the same general order as Boost::assign without creating a dependency on Boost, the following is at least vaguely similar:

template<class T>
class make_vector {
    std::vector<T> data;
    make_vector(T const &val) { 

    make_vector<T> &operator,(T const &t) {
        return *this;

    operator std::vector<T>() { return data; }

template<class T> 
make_vector<T> makeVect(T const &t) { 
    return make_vector<T>(t);

While I wish the syntax for using it was cleaner, it's still not particularly awful:

std::vector<int> x = (makeVect(1), 2, 3, 4);
typedef std::vector<int> arr;

arr a {10, 20, 30};       // This would be how you initialize while defining

To compile use:

clang++ -std=c++11 -stdlib=libc++  <filename.cpp>
  • Question states C++ 03 (not 11) – Mike P Sep 8 '14 at 9:55
  • 1
    I think it didn't specify 03 when I answered this. Don't remember perfectly though. However, it is still a useful answer for someone looking for a quick solution. – shaveenk Sep 8 '14 at 17:26

There are a lot of good answers here, but since I independently arrived at my own before reading this, I figured I'd toss mine up here anyway...

Here's a method that I'm using for this which will work universally across compilers and platforms:

Create a struct or class as a container for your collection of objects. Define an operator overload function for <<.

class MyObject;

struct MyObjectList
    std::list<MyObject> objects;
    MyObjectList& operator<<( const MyObject o )
        objects.push_back( o );
        return *this; 

You can create functions which take your struct as a parameter, e.g.:

someFunc( MyObjectList &objects );

Then, you can call that function, like this:

someFunc( MyObjectList() << MyObject(1) <<  MyObject(2) <<  MyObject(3) );

That way, you can build and pass a dynamically sized collection of objects to a function in one single clean line!

// Before C++11
// I used following methods:

// 1.
int A[] = {10, 20, 30};                              // original array A

unsigned sizeOfA = sizeof(A)/sizeof(A[0]);           // calculate the number of elements

                                                     // declare vector vArrayA,
std::vector<int> vArrayA(sizeOfA);                   // make room for all
                                                     // array A integers
                                                     // and initialize them to 0 

for(unsigned i=0; i<sizeOfA; i++)
    vArrayA[i] = A[i];                               // initialize vector vArrayA

int B[] = {40, 50, 60, 70};                          // original array B

std::vector<int> vArrayB;                            // declare vector vArrayB
for (unsigned i=0; i<sizeof(B)/sizeof(B[0]); i++)
    vArrayB.push_back(B[i]);                         // initialize vArrayB

int C[] = {1, 2, 3, 4};                              // original array C

std::vector<int> vArrayC;                            // create an empty vector vArrayC
vArrayC.resize(sizeof(C)/sizeof(C[0]));              // enlarging the number of 
                                                     // contained elements
for (unsigned i=0; i<sizeof(C)/sizeof(C[0]); i++)
     vArrayC.at(i) = C[i];                           // initialize vArrayC

// A Note:
// Above methods will work well for complex arrays
// with structures as its elements.

If the array is:

int arr[] = {1, 2, 3};
int len = (sizeof(arr)/sizeof(arr[0])); // finding length of array
vector < int > v;
std:: v.assign(arr, arr+len); // assigning elements from array to vector 

"How do I create an STL vector and initialize it like the above? What is the best way to do so with the minimum typing effort?"

The easiest way to initialize a vector as you've initialized your built-in array is using an initializer list which was introduced in C++11.

// Initializing a vector that holds 2 elements of type int.
std::vector<int> ivec = {10, 20};

// The push_back function is more of a form of assignment with the exception of course
//that it doesn't obliterate the value of the object it's being called on.

ivec is 3 elements in size after Assigning (labeled statement) is executed.

  • In the similar lines , I am trying to initialise the map, std::map<int, bool> catinfo = { {1, false} }; But then get this error error: in C++98 'catinfo' must be initialized by constructor, not by '{...}' – pdk Sep 8 '13 at 7:42

Related, you can use the following if you want to have a vector completely ready to go in a quick statement (e.g. immediately passing to another function):

#define VECTOR(first,...) \
   ([](){ \
   static const decltype(first) arr[] = { first,__VA_ARGS__ }; \
   std::vector<decltype(first)> ret(arr, arr + sizeof(arr) / sizeof(*arr)); \
   return ret;})()

example function

template<typename T>
void test(std::vector<T>& values)
    for(T value : values)

example use


though be careful about the decltype, make sure the first value is clearly what you want.

B. Stroustrup describes a nice way to chain operations in 16.2.10 Selfreference on page 464 in the C++11 edition of the Prog. Lang. where a function returns a reference, here modified to a vector. This way you can chain like v.pb(1).pb(2).pb(3); but may be too much work for such small gains.

#include <iostream>
#include <vector>

template<typename T>
class chain
    std::vector<T> _v;
    chain& pb(T a) {
        return *this;
    std::vector<T> get() { return _v; };

using namespace std;

int main(int argc, char const *argv[])
    chain<int> v{};


    for (auto& i : v.get()) {
        cout << i << endl;

    return 0;


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