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I was surprised to find out that it is possible to allocate an varying-length array on the stack in C++ (such as int array[i];). It seems to work fine on both clang and gcc (on OS/X) but MSVC 2012 don't allow it.

What is this language feature called? And is it an official C++ language feature? If yes, which version of C++?

Full example:

#include <iostream>

using namespace std;

int sum(int *array, int length){
    int s = 0;
    for (int i=0;i<length;i++){
        s+= array[i];
    return s;

int func(int i){
    int array[i]; // <-- This is the feature that I'm talking about
    for (int j=0;j<i;j++){
        array[j] = j;

    return sum(array, i);


int main(int argc, const char * argv[])
    cout << "Func 1 "<<func(1)<<endl;
    cout << "Func 2 "<<func(2)<<endl;
    cout << "Func 3 "<<func(3)<<endl;

    return 0;
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marked as duplicate by billz, Eitan T, Blastfurnace, balki, Rapptz Aug 3 '13 at 20:45

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

By the current standard, this is not allowed. It is a compiler extension called variable length arrays. With suitable compilation flags, your code would fail to compile. –  juanchopanza Jul 31 '13 at 11:56
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4 Answers 4

up vote 3 down vote accepted

You're looking at GCC's variable length arrays. That's a GNU extension and is not standard C++.

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Well answered.. –  John Dibling Jul 31 '13 at 12:00
I think it is proper adding that this should not be used since it will not compile by other compilers. –  Alexandru Barbarosie Jul 31 '13 at 12:05
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This feature is called Variable Length Arrays or VLAs.

It's part of C99 standard (and also C11) but is not supported by C++11. However, as you see some compilers accept it as an extension.

Finally, a similar feature (but not exactly the same as C99's VLAs) was approved at the C++ committee meeting in Bristol (April 2013) and is in the current draft of C++14.

Two main differences between C99's VLAs and C++14's are illustrated below:

void f(std::size_t n) {
    int a[n];
    unsigned int x = sizeof(a);
    // ...
    int matrix m[n][n];

In C99, the expression sizeof(a) is evaluated at runtime. In C++14 this is illegal. In addition, multidimensional VLAs are not supported by C++14.

For more information on C99's VLAs see this DrDobb's article.

For more information on C++14's runtime-sized arrays see N3639, the paper that was approved in Bristol.

Update: In the Chigago meeting, the committee decided to remove this feature from C++14 and instead put it in a separate document, a Technical Specification (TS) on array Extendions (TS). In addition, the TS also includes the template class dynarray which is somewhat related to arrays of runtime bounds.

The main reason it was dropped from C++14 is that the committee wants to get feedback from implementation and user experience before standardizing these features.

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This is a gcc extension and it seems like clang supports this in limited cases it is not standard C++ although it is valid c99. In gcc and clang you can use the -pedantic flag it will give you a warning like this in gcc:

warning: ISO C++ forbids variable length array ‘array’ [-Wvla]

and like this in clang:

warning: variable length arrays are a C99 feature [-Wvla-extension]
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You could use constexpr (C++11) as a workaround in some situations:

constexpr int getArraySize (int factor) {
    return 2 * factor + 1;

int my_array[getArraySize(3)];

Actually in C++14, this limitation shouldn't be there any more: http://isocpp.org/blog/2013/04/n3639-runtime-sized-arrays-with-automatic-storage-duration

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