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I've got a method that receives a variable int. That variable constitutes an array size (please, don't offer me a vector). Thus, I need to init a const int inside my method to initialize an array of specific size. Question: how do I do that?

void foo(int variable_int){
    int a[variable_int] = {0}; //error
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What's wrong with a vector? That failing, I offer you a smart pointer. – chris Jan 22 '13 at 13:07
Why not a vector ? Why even use C++ if you only want to use C idioms ? – Paul R Jan 22 '13 at 13:07
Well, a think of a vector as just an array that you can initialize with a variable size. Are you sure you didn't mean to tag your question "c"? – Roddy Jan 22 '13 at 13:12
@den-javamaniac For most purposes, a C++ vector is at least as good as an array! (If you haven't worked with C++ vectors before: the name is confusing, they behave a lot more like an array than a mathematical vector.) You can even address vector elements with the [] operator if you want (if you don't need/want bounds checking). – us2012 Jan 22 '13 at 13:18
The answer is to use a vector. C++ does not support variable-length arrays, and memory management without RAII will lead to memory leaks if anything throws an exception. – Mike Seymour Jan 22 '13 at 13:18
up vote 5 down vote accepted
int *a = new int[variable_int];

Remember to delete[] the allocated space when you are done with it!

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Or better still, std::vector<int> a(variable_int). Now you don't need to remember to delete it, or debug the memory leaks that will otherwise inevitably arise if an exception is thrown. – Mike Seymour Jan 22 '13 at 13:13
@MikeSeymour Agreed, but not using a vector was a requirement by the question. – zennehoy Jan 22 '13 at 13:14
Sorry, I didn't notice that weird requirement. Good luck debugging the memory leaks then. – Mike Seymour Jan 22 '13 at 13:16
Another simple way is to alloca, int *a = alloca(variable_int);, which like this answer doesn't initialize the memory to a specific value, but has the benefit of being a very fast allocation scheme: memory is allocated on the stack, as compared to the heap, so you also won't get a memory exception (here is the potential of running out of stack space, but then you've got larger problems). Use this trick for small allocations (up to around a few kilobytes). – radical7 Jan 22 '13 at 13:18
@MikeSeymour - I'm with you: use a vector. Conforming to weird requirements is a time sink. – Pete Becker Jan 22 '13 at 13:29

You can easily make a const variable from a non-const variable by writing const int bar = variable_int; - however that won't help you. In C++ the size of an array with automatic storage must be a compile-time constant. You can't turn a variable into a compile-time constant, so what you want is simply not possible.

Depending on your needs, you could make a a pointer and allocate memory using new (and then later delete it) or, if the parameter to foo will always be known at compile-time, you could turn foo into a template function like this:

template<int n> void foo() {
    int a[n] = {0};
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C++ does not support variable-length arrays. Instead, you'll need to allocate the array dynamically:

std::vector<int> a(variable_int);

or since you say you don't want to use a vector for some reason:

class not_a_vector
    explicit not_a_vector(size_t size) : a(new int[size]()) {}
    ~not_a_vector() {delete [] a;}
    int & operator[](size_t i) {return a[i];}
    int   operator[](size_t i) const {return a[i];}

    not_a_vector(not_a_vector const &) = delete;
    void operator=(not_a_vector const &) = delete;

    int * a;

not_a_vector a(variable_int);

UPDATE: The question has just been updated with the "C" tag as well as "C++". C (since 1999) does support variable-length arrays, so your code should be fine in that language.

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To do what you want, you will need to use dynamic allocation. In which case I would seriously suggest using vector instead - it is the "right" thing to do in C++.

But if you still don't want to use vector [why you wouldn't is beyond me], the correct code is:

 void foo(int variable_int){
    int *a   = new int[variable_int]();   // Parenthesis to initialize to zero.
    ... do stuff with a ... 
    delete [] a;

As others have suggest, you can also use calloc, which has the same effect of initializing to zero, but not really the "c++" solution.

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Don't forget try catch for exception safety ;-) It's always worth rubbing in just how much legwork std::vector does for you! – Roddy Jan 22 '13 at 13:15
Thanks for the parenthesis, I got segfault without em. :-) – Denys S. Jan 22 '13 at 13:27

If you're using arrays it's a good idea to encapsulate them:

template<typename Type>
class Vector {

The standard library comes with an implementation: std::vector

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