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It's possible to create an array like this - if size is defined before arr.

const int size = 5;
int arr[size];

But it's not possible, when size and arr are inside object or struct:

struct A{
    A(int s) : size(s) 
    const int size;
    int arr[size]


Why is it so? It's seems kinda illogical, because in both cases size of array is known in compilation time.

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It's not possible in the class/struct because size is not initialized to be a value, that means that your array could have any size, which is invalid. Use std::vector<int> instead. – Tony The Lion Nov 14 '12 at 11:37
I know about vector or template, i just want to know, why it's not possible when (if) size is known in compilation time. – Amomum Nov 14 '12 at 11:42
So, compiler can not detect is function argument compilation time constant or not? Or is it possible only with constexpr and c++11? Then, will my example be legal with constexpr in constructor? – Amomum Nov 14 '12 at 12:24

It's seems kinda illogical, because in both cases size of array is known in compilation time.

The compiler cannot distinguish between your example and this:

int i = std::rand(); // not a compile time constant
A a(i);

On the other hand, it needs to know the size of the array at compile time. Two instances of A cannot have different size. So the size of the array cannot depend on something that can be set at runtime.

On the other hand, C++11 provides constexpr, which allows you to propagate compile-time constants through expressions and lets you use these to initialize arrays.

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I didn't say "always known", just in this two cases. – Amomum Nov 14 '12 at 11:40
@Amomum OK, I changed the wording. The bottom line is, pre-c++11 you are stuck, with C++11 you can use constexpr. – juanchopanza Nov 14 '12 at 11:43
I can't see the difference. If i cannot initialize a constant with variable, why is constant inside a structure should be different? – Amomum Nov 14 '12 at 11:53
@Amomum you can initialize a constant with a variable. But when you declare a class, the size or the array needs to be known at the point of declaration. The size variable is only set at the point of instantiation. – juanchopanza Nov 14 '12 at 11:57
But if i initialize a constant with a variable i can't use this constant as array size. If constant is compilation time constant, then i can. The point is, that if array is inside of struct i can't do it in both cases - that's the illogical part. What is the difference? – Amomum Nov 14 '12 at 12:00

in both cases size of array is known in compilation time.

Nope, a const class member can be set at run-time.

In fact, even a non-member doesn't always work:

int x;
cin >> x;
const int y = x;
int z[y];   //ILLEGAL

Just use a std::vector.

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Well, that's true. But if it IS known in compilation time, it's possible for a simple array. – Amomum Nov 14 '12 at 11:40
@Amomum yes, but in these cases it's not. – Luchian Grigore Nov 14 '12 at 12:06
Question is, why if constant is known in compilation time, it's not possible for an array inside a struct, but is possible "outside"? – Amomum Nov 14 '12 at 12:15
@Amomum it is, but in your case, the constant is not known at compile-time. – Luchian Grigore Nov 14 '12 at 16:10
How it can be not known at compile-time if it's "5" ? Again, why compiler can distinguish "int i; int arr[i]" and "const int i=2; int arr[i]" for a simple array, but can't do the same for array inside struct? – Amomum Nov 14 '12 at 22:21

When the compiler compiles A, there is in fact no guarantee that it is a compile-time argument. It just happens to be one. I could equally do

int main() {
    std::cin >> i;

If you want to pass it a constexpr argument, you will need to use a template. Else, you will need to use a run-time container like std::vector.

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You should use std::vector<int> instead of raw arrays if you want a dynamically resizeable array.

You cannot do what you're trying to do inside the class or struct because your size member has no defined value.

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Because in C++ when you initialize a C-style array with a size argument, the size must be a compile-time integral constant.

Otherwise the compiler doesn't know how big to make the variable when compiling.

If you don't like this, you should be using vector anyway.

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In second case, if you take into consideration just class definition array size is not known in compilation time.

if making such classes was allowed you could write


that would be objects of different size, that would break alot, for example it would not be possible to keep such objects in the same array. It would be logical to say that those objects have different type, and that would be possible if you make your class template and pass size as template parameter.

if you want to use arrays of different size use std::vector or templates.

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You need to dynamicly allocate the memory from your heap if it is not known before compile time.

int* arr = new int [size];

If you do not need the memory anymore you should delete the array.

delete[] arr;

And also as Tony said, it is better to use standart libary vectors

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