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I've been using C++ for a few years, and today I don't know if this is a mere brainfart or what, but how can this be perfectly legal:

int main(int argc, char **argv)
{
    size_t size;
    cin >> size;
    int array[size];
    for(size_t i = 0; i < size; i++)
    {
        array[i] = i;
        cout << i << endl;
    }

    return 0;
}

Compiled under GCC. How can the size be determined at run-time without new or malloc? Just to double check, I've googled some and all similar codes to mine are claimed to give storage size error. Even Deitel's C++ How To Program p. 261 states under Common Programming Error 4.5: Only constants can be used to declare the size of automatic and static arrays.

Enlight me.

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2  
note that DMA means "direct memory access" - I think you are asking about dynamic allocation –  anon Apr 10 '09 at 10:32
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5 Answers

up vote 31 down vote accepted

This is valid in C99.

C99 standard supports variable sized arrays on the stack. Probably your compiler has chosen to support this construct too.

Note that this is different from malloc and new. gcc allocates the array on the stack, just like it does with int array[100] by just adjusting the stack pointer. No heap allocation is done. It's pretty much like _alloca.

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4  
I came across this same scenario in a file in our code base that was written months ago. I was baffled, as was the rest of the team, as to why it compiled. In our situation, the size of the array was calculated before declaring the array as well (which shouldn't be allowed, either?) Anyway, a challenge went out. Anyone who could answer why this is legal gets a pop tart. If you're ever in Seattle, let me know. I have a pop tart for you. –  Jeff Lamb Jan 12 '11 at 22:55
    
Can you provide some info/link on how stack internally works in this case? Does this introduce some overhead in run time? –  balki Jul 6 '11 at 11:21
    
@balki The overhead is minor, as it's basically increment/decrementing the stack pointer. The stack behavior can be essentially identical to the normal case if you save the original stack pointer at the beginning of the function. –  LeakyCode Jul 6 '11 at 19:31
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This is known as VLAs (variable length arrays). It is standard in c99, but gcc allows it in c++ code as an extension. If you want it to reject the code, try experimenting with -std=standard, -ansi and -pedantic options.

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It is valid only in C99. Next time you may try checking your code in a reliable compiler.

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It is valid C99, it is not valid C++. This is one of not a few differences between the two languages.

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2  
I guess it's going to be supported in C++0x –  LeakyCode Apr 10 '09 at 10:35
    
Not according to section 8.3.4 of the draft standard. –  anon Apr 10 '09 at 10:47
1  
it won't ever be included in c++1x :D but let's hope dynarray<T> gets in. i would love it. so you could do dynarray<int> a(some_size); and have it allocate efficiently, possibly with compiler hax like _alloca and so on. –  Johannes Schaub - litb Apr 10 '09 at 15:23
2  
For anyone from the future: it will be included in C++14 (with smaller set of features such as typedef, sizeof(), etc.). –  Red XIII Aug 29 '13 at 6:04
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You can give size to an array dynamically in if you are using Dev-Cpp compiler I have tried it and got no error but on visual c++ and visual studio compilers it is not possible. I think the reason is that dev-c++ assigns a positive number to the uninitialized int and when we give it a number it is replaced by the given one. but perhaps other compilers give null to uninitialized variables.

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Most compilers don't assign anything to uninitialized local variables, they will usually appear to hold whatever was in the memory that they occupy until they are assigned by the program. It seems the Dev-C++ you referenced is an IDE on top of MinGW, which includes a port of GCC as the compiler. As noted in other answers, VLAs are not standard C++, but some compilers (including g++) support them anyway. –  jerry May 22 '13 at 13:27
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