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Difference between revisions of "cpp/language/consteval"

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===Keywords===
 
===Keywords===
{{rev inl|since=c++20|[[cpp/keyword/consteval|{{c/core|consteval}}]] <small>({{c/core|consteval}} declaration specifier)</small>}}
+
{{ltt|cpp/keyword/consteval}}
  
 
===Example===
 
===Example===

Latest revision as of 18:11, 11 August 2024

 
 
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  • consteval - specifies that a function is an immediate function, that is, every call to the function must produce a compile-time constant

Contents

[edit] Explanation

The consteval specifier declares a function or function template to be an immediate function, that is, every potentially-evaluated call to the function must (directly or indirectly) produce a compile time constant expression.

An immediate function is a constexpr function, subject to its requirements as the case may be. Same as constexpr, a consteval specifier implies inline. However, it may not be applied to destructors, allocation functions, or deallocation functions.

A function or function template declaration specifying consteval may not also specify constexpr, and any redeclarations of that function or function template must also specify consteval.

A potentially-evaluated invocation of an immediate function whose innermost non-block scope is not a function parameter scope of an immediate function or the true-branch of a consteval if statement(since C++23) must produce a constant expression; such an invocation is known as an immediate invocation.

consteval int sqr(int n)
{
    return n*n;
}
constexpr int r = sqr(100); // OK
 
int x = 100;
int r2 = sqr(x);            // Error: Call does not produce a constant
 
consteval int sqrsqr(int n)
{
    return sqr(sqr(n));     // Not a constant expression at this point, but OK
}
 
constexpr int dblsqr(int n)
{
    return 2 * sqr(n);      // Error: Enclosing function is not consteval
                            // and sqr(n) is not a constant
}

An identifier expression that denotes an immediate function may only appear within a subexpression of an immediate invocation or within an immediate function context (i.e. a context mentioned above, in which a call to an immediate function needs not to be a constant expression). A pointer or reference to an immediate function can be taken but cannot escape constant expression evaluation:

consteval int f() { return 42; }
consteval auto g() { return &f; }
consteval int h(int (*p)() = g()) { return p(); }
constexpr int r = h();  // OK
constexpr auto e = g(); // ill-formed: a pointer to an immediate function is
                        // not a permitted result of a constant expression

[edit] Notes

Feature-test macro Value Std Feature
__cpp_consteval 201811L (C++20) Immediate functions
202211L (C++20)
(DR)
Making consteval propagate up

[edit] Keywords

consteval

[edit] Example

#include <iostream>
 
// This function might be evaluated at compile-time, if the input
// is known at compile-time. Otherwise, it is executed at run-time.
constexpr unsigned factorial(unsigned n)
{
    return n < 2 ? 1 : n * factorial(n - 1);
}
 
// With consteval we enforce that the function will be evaluated at compile-time.
consteval unsigned combination(unsigned m, unsigned n)
{
    return factorial(n) / factorial(m) / factorial(n - m);
}
 
static_assert(factorial(6) == 720);
static_assert(combination(4, 8) == 70);
 
int main(int argc, const char*[])
{
    constexpr unsigned x{factorial(4)};
    std::cout << x << '\n';
 
    [[maybe_unused]]
    unsigned y = factorial(argc); // OK
//  unsigned z = combination(argc, 7); // error: 'argc' is not a constant expression
}

Output:

24

[edit] See also

constexpr specifier(C++11) specifies that the value of a variable or function can be computed at compile time[edit]
constinit specifier(C++20) asserts that a variable has static initialization, i.e. zero initialization and constant initialization[edit]
constant expression defines an expression that can be evaluated at compile time