Is there any practical difference between std::array<const T, N> and const std::array<T, N>?

It looks that non-const array holding const elements is still not able to be swapped; assignment operator is not working either.

When should I prefer one over the other one?

#include <array>

std::array<const int, 5> array_of_const = {1,2,3,4,5};
std::array<const int, 5> array_of_const2 = {1,2,3,4,5};

const std::array<int, 5> const_array = {1,2,3,4,5};
const std::array<int, 5> const_array2 = {1,2,3,4,5};

int main()
    // Assignment doesn't work for either
    array_of_const = array_of_const2;
    const_array = const_array2;

    // Swapping doesn't work for either

    // Indexing...
    array_of_const[0] = 0;
    const_array[0] = 0;

    return 0;
  • 3
    @DrewDormann Yes, I agree. I can think of no good reason for these, Jan 21 at 14:44
  • 2
    @KarlKnechtel [language-lawyer] is not added by OP actually Jan 21 at 14:47
  • 1
    I don't see why this has many upvote. (the initial ones are mostly probably balance vote(which I think is bad) I guess) Jan 21 at 14:48
  • 2
    @ildjarn what "huge, obvious practical differences"? I don't see any
    – Caleth
    Jan 21 at 14:50
  • 2
    @wooc in ildjarn's defense it's not the clearest example. I initially thought it was pointing out a difference as well. Jan 21 at 14:53

3 Answers 3


Copies of std::array<const T, N> are still "logically const", whereas by default a copy of const std::array<T, N> is mutable. If allowing or preventing that matters to you, one is preferable to the other.

There are differences in what templates they match, e.g. the case in Ilya's answer.


there could be at least one difference - case when you need to pass variable to some other function, for example:

#include <array>

std::array<const int, 5> cc_arr5 = {1,2,3,4,5};
const std::array<int, 5> cc_arr5_2 = {1,2,3,4,5};

template<class T, std::size_t N>
void func(std::array<T, N>& a) {
    // do not change a, for example just calculate sum

int main()
    func(cc_arr5_2); // this line does not compile

    return 0;
  • 1
    Well, a difference is a difference, even if it's contrived. Although we've all seen functions in the wild that take non-const references and then don't actually mutate the parameter, so I guess it's not that contrived. Jan 21 at 15:01
  • 1
    Exactly the example I was about to post ... have some Unicorn points for being a few minutes faster than I am. Jan 21 at 15:01
  • 1
    Consider expanding the example by showing that a needs to not be mutated in the function body for this to work? godbolt.org/z/qqPc9qW77 Jan 21 at 15:04
  • 2
    Of course, passing a std::span by value is much preferable to passing a std::array or native array by reference... Jan 21 at 15:09
  • 1
    Now the only thing missing is an example for const std:array<const int, 5>.
    – tommsch
    Jan 22 at 7:34

They are indeed different types, so you cannot use one in a place whether the other would be expected, for example in a function call or an assignment.

That being said, as an array is a fixed size container with no auxiliary data member, having the container const prevent any change to its elements and having the elements const does not allow any change to the container since it obviously has no other data member.

Said differently both types will have the very same valid and invalid operations.

The main difference I can think about, is the const_cast implication: an array can be (implicitly) converted to a const array of the same element type but not to an array of the const modified type:

std::array<int, 3> a {1, 2, 3};

std::array<const int, 3> b = a; // Error: no known conversion from 'array<int, [...]>' to 'const array<const int, [...]>
const std::array<int, 3> c = a; // Ok
  • 1
    Perhaps two const_cast implications: One of the two types can also have const casted away. Jan 21 at 15:39

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