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friends I was just playing around with some pointer programs and realized that the GCC (and maybe the C standard) differentiates the static and dynamic arrays.

A dynamic array has a place-holder for the address of the elements in the array whereas for the static array, there is no memory location where the compiler stores the starting address of the element array.

I have an example program to demonstrate my confusion.

#include <iostream>
#int main(void)
{
  int _static[10];
  int *_dynamic;

  _dynamic = new int [10];

  std::cout<<"_static="<<_static<<" &_static="<<&_static<<" &_static[0]="<<&_static[0]<<std::endl;
  std::cout<<"_dynamic="<<_dynamic<<" &_dynamic="<<&_dynamic<<" &_dynamic[0]="<<&_dynamic[0]<<std::endl;

  return 0;
}

For the above program, _static and &_static[0] return the same address on the expected lines. However, the &_static also return the same address as the other two.

So, _static and &_static refer to the same number (or address whatever we would like to call it). As expected, _dynamic and &_dynamic indicate different locations.

So, why did the C standard say that _static and &_static must refer to the same location. It sounds confusing. One reason I feel is that &_static does not make much sense. But then should its usage not be reported as an error instead ?

Can somebody please help me with this confusion ?

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  • 2
    Because arrays decay into pointers. _static decays into a pointer to the first element for the output, and since there's no overload for int * like there is for char * (where it outputs the string), the address held in the int * is used instead. Therefore _static outputs the value of a pointer to the first element, or &_static[0].
    – chris
    Jul 12, 2012 at 4:35
  • 1
    You may be interested in this post stackoverflow.com/questions/4810664/how-do-i-use-arrays-in-c where you can learn all about arrays. Jul 12, 2012 at 4:36
  • 2
    Do they emit Higgs bosons as they decay?
    – Hot Licks
    Jul 12, 2012 at 4:36
  • 2
    @HotLicks: no but they do emit a bunch of confused programmers, forum threads, and articles.
    – Lie Ryan
    Jul 12, 2012 at 4:46
  • 1
    @chris -- The older I get the less trouble I seem to have deleting what I knew.
    – Hot Licks
    Jul 12, 2012 at 12:11

3 Answers 3

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A static array inside a function is allocated on the stack. This way _static (decayed as pointer to the first entry), &_static[0] and &_static have the same value, same memory address.

On the other hand, a dynamic array is in fact a pointer to a contiguous memory area. Only the pointer is stored on the stack. This is why &_dynamic (from the stack) and _dynamic (from the heap) differ.

Hope this image shows it all:

static vs dynamic arrays

Have also a look at this article about static and dynamic global arrays continued with the distinction between extern and non-extern.

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4

Actually _static and &_static don't refer to the same location. The only reason they appear to is because you use _static in a context in which it decayed into a pointer. That is, by the way you used them, you made them refer to the same location. But they didn't before you did that -- one was an array and the other was a pointer. They couldn't be the same because they were fundamentally different things.

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  • The term "decaying into pointer" seems a bit alien to me. Can you please elaborate ? Jul 12, 2012 at 4:48
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    The term "decay" is used to refer to the way arrays turn into pointers to their first element, losing their size information in the process. This is why sizeof(_static) and sizeof(&_static) are different. The array does not decay when used with sizeof but does decay when passed to operator<< as in the example code. Jul 12, 2012 at 4:50
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in simple words static is created in stack and dynamic is created in heap, in static array you have to tell the size before program runs but in dynamic you can take input from user and then make array of that size.

Example static:

int array[5];

Example dynamic:

int *array;
cout << "Enter size of array: ";
cin >> size;
array = new int[size];
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