Original question: If I define:

const int z[5] = {10, 11, 12, 13, 14}; 

does it mean:

  1. it's a constant array of integers i.e. the address which z points to is always constant and can never change, but the elements of z can change.


  1. Each element of z is a constant i.e. their value can never change.


More info:

There is another variable:

const int *y = z;
func((int *) y);

where func is defined as:

void func(int y[]) {
    int i;
    for(i = 0; i < 5; i++) {
        y[i] = i; //y[i] can be set to any integer; used i as example

where in func, using y, the array is traversed and each element is changed. Is this is valid even though all elements of z are const?

  • 4
    Did you try changing z[0]?
    – Amit
    Sep 21, 2015 at 22:21
  • 6
    The address that z points to can never change anyway. In any case, you can use cdecl.org Sep 21, 2015 at 22:21
  • 2
    That doesn't make sense. Given that declaration, any attempt to modify z[0] should have been rejected by the compiler. Please update your question with a complete self-contained example that demonstrates this. Sep 21, 2015 at 22:30
  • 1
    @juanchopanza: That's doubtful. It's far more likely that the OP has made a mistake somewhere. Sep 21, 2015 at 22:31
  • 1
    You don't get a compiler warning because you cast the value of y to int*. You're telling the compiler to pretend that y points to non-const data. Since in fact y points to const data, you have lied to the compiler, and your code has undefined behavior. Casts, especially pointer casts, should usually be avoided. Sep 21, 2015 at 23:11

2 Answers 2


It means that each element of z is read-only.

The object z is an array object, not a pointer object; it doesn't point to anything. Like any object, the address of z does not change during its lifetime.

Since the object z is an array, the expression z, in most but not all contexts, is implicitly converted to a pointer expression, pointing to z[0]. That address, like the address of the entire array object z, doesn't change during the object's lifetime. This "conversion" is a compile-time adjustment to the meaning of the expression, not a run-time type conversion.

To understand the (often confusing) relationship between arrays and pointers, read section 6 of the comp.lang.c FAQ.

It's important to understand that "constant" and const are two different things.

If something is constant, it's evaluated at compile time; for example, 42 and (2+2) are constant expressions.

If an object is defined with the const keyword, that means that it's read-only, not (necessarily) that it's constant. It means that you can't attempt to modify the object via its name, and attempting to modify it by other means (say, by taking its address and casting to a non-const pointer) has undefined behavior. Note, for example, that this:

const int r = rand();

is valid. r is read-only, but its value cannot be determined until run time.

  • Could you explain what you mean by: "z is an array, not a pointer; it doesn't point to anything" and then "Since z is an array...is implicitly converted to a pointer to z[0] " Is it a pointer or not?
    – Ziezi
    Sep 21, 2015 at 22:36
  • 1
    @simplicisveritatis: An array is not a pointer. Try taking the sizes of both. But the name of the array is implicitly converted to a pointer to the first element for most uses. Sep 21, 2015 at 22:42
  • 2
    A const object in C (different from C++) is not necessarily read-only. It is left to the implementation if there is any write-protection to the object. const is only a guarantee by the programmer not to write to the object. The compiler can rely on this contract. There are other languages, there is no practical difference between a constant and a literal. Sep 21, 2015 at 22:46
  • 2
    @simplicisveritatis: If it were already a pointer, it wouldn't need to be converted to a pointer. An array object contains a contiguous sequence of elements. A pointer object contains a single address. They're completely different things. Again, please read section 6 of the comp.lang.c FAQ; it explains this in more detail than I have time for. Sep 21, 2015 at 22:49
  • 1
    @simplicisveritatis: Ok. Are those two sentences clear now? Sep 21, 2015 at 23:08

In your case the answer is:

  1. Each element of z is a constant i.e. their value can never change.

You can't create a const array because arrays are objects and can only be created at runtime and const entities are resolved at compile time.

So, the const is interpreted as in the first example below, i.e. applied for the elements of the array. Which means that the following are equivalent: The array in your example needs to be initialized.

 int const z[5] = { /*initial (and only) values*/};
 const int z[5] = { /*-//-*/ };

It is some type commutative property of the const specifier and the type-specifier, in your example int.

Here are few examples to clarify the usage of constant:

1.Constant integers definition: (can not be reassigned). In the below two expression the use of const is equivalent:

int const a = 3;  // after type identifier
const int b = 4;  // equivalent to before type qualifier

2.Constant pointer definition (no pointer arithmetics or reassignment allowed):

int * const p = &anInteger;  // non-constant data, constant pointer

and pointer definition to a constant int (the value of the pointed integer cannot be changed, but the pointer can):

const int *p = &anInteger;  // constant data, non-constant pointer
  • 12
    since when can an array only be "created" at runtime, in C ? If you define it as an array of const values then it will be created at compile time.
    – NikkyD
    May 25, 2018 at 14:01
  • 4
    "const entities are resolved at compile time". This is false. For example, const int r = rand(); is valid, but the value is evaluated in runtime
    – Kolay.Ne
    Apr 20, 2021 at 12:07

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