int d = 1;
constexpr void add()

int main()


GCC 7.1 will report errors below. The error message is very clear. The problem is that I don't see any explicit explanations in constexpr to describe it's illegal.

Can someone explain which rules defined in spec this case violate?

main.cpp: In function 'constexpr void add()':

main.cpp:8:1: error: the value of 'd' is not usable in a constant expression



main.cpp:4:5: note: 'int d' is not const

 int d = 1;

  • 5
    "there exists at least one set of argument values such that an invocation of the function could be an evaluated subexpression of a core constant expression" – T.C. Jul 27 '17 at 15:03
  • It seems break the rule #16(modification of an object, unless the object has non-volatile literal type and its lifetime began within the evaluation of the expression ). But if I change to constexpr void add() { d = 2; } then it can pass. – SSY Jul 27 '17 at 15:19
  • error message from clang looks clear, a constant expression cannot modify an object that is visible outside that expression. But I still can't find which rule it breaks in en.cppreference.com/w/cpp/language/… – SSY Jul 27 '17 at 15:23

From cppreference:

A core constant expression is any expression that does not have any one of the following in any subexpression (ignoring unevaluated expressions such as the operand of sizeof or the right operand of builtin && when the left operand evaluates to false).


16) modification of an object, unless the object has non-volatile literal type and its lifetime began within the evaluation of the expression.

In your example, d's lifetime began before add was evaluated - so any modification of d inside add is illegal. The example on the reference is specifically for incrementing, but this holds for all modifications.

Edit: Not quoting from the standard because as far as I'm aware, you've got to buy it...


The comments are good from a refer-you-to-the-standard perspective, but here hopefully a more intuitive explanation.

A constexpr function must be reducible to a constant expression at compile time. Since you are interacting with a regular, non-const int in the function, the compiler cannot determine what d++ is under all circumstances. Consider the following case:

int d;
constexpr void add() {

void foo() {
    int n;
    std::cin >> n;
    d = n;

In this case, the value of d inside foo() is indeterminate at compile time, and therefore, the constant expression that you are hoping add() to leave you with cannot be determined. I hope that helps.

  • That's not true. constexpr just implies if all the preconditions are satisfied, it will be evaluated at compilation time. Otherwisem it will run dynamically. – SSY Jul 28 '17 at 2:12

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