I was reading about constexpr here:

The constexpr specifier declares that it is possible to evaluate the value of the function or variable at compile time.

When I first read this sentence, it made perfect sense to me. However, recently I've come across some code that completely threw me off. I've reconstructed a simple example below:

#include <iostream>

void MysteryFunction(int *p);

constexpr int PlusOne(int input) {
  return input + 1;

int main() {
  int i = 0;
  std::cout << PlusOne(i) << std::endl;

  return 0;

Looking at this code, there is no way for me to say what the result of PlusOne(i) should be, however it actually compiles! (Of course linking will fail, but g++ -std=c++11 -c succeeds without error.)

What would be the correct interpretation of "possible to evaluate the value of the function at compile time"?

  • 5
    If you pass a non-constexpr argument to the PlusOne function, the compiler can't evaluate it at compile-time, and it will simply be a normal run-time function. Sep 10 '18 at 18:52
  • 6
    Hint: "The constexpr specifier declares that it is possible to evaluate the value of the function or variable at compile time."
    – Rakete1111
    Sep 10 '18 at 18:56
  • 1
    FWIW, cppreference is not an "official description" of C++. It's a community-managed wiki, albeit a high-quality wiki. The language in cppreference is intentionally made more casual than the standard itself. Don't treat cppreference's statements as binding; if you want to be a language lawyer, refer to the standard itself (I like this website: eel.is/c++draft)
    – Justin
    Sep 10 '18 at 19:43
  • 1
    I'm not trying to be a language lawyer, I'm just here to understand the functionality. Sep 10 '18 at 21:24
  • 1
    @Apollys Sadly, in C++ nowadays, the two are often not separable :P Oct 8 '18 at 10:00

A constexpr function may be called within a constant expression, provided that the other requirements for the evaluation of the constant expression are met. It may also be called within an expression that is not a constant expression, in which case it behaves the same as if it had not been declared with constexpr. As the code in your question demonstrates, the result of calling a constexpr function is not automatically a constant expression.

  • That makes more sense, that's kind of what I was guessing but it didn't seem to me like that was the literal interpretation of the sentence I quoted. Sep 10 '18 at 19:02

The quoted wording is a little misleading in a sense. If you just take PlusOne in isolation, and observe its logic, and assume that the inputs are known at compile-time, then the calculations therein can also be performed at compile-time. Slapping the constexpr keyword on it ensures that we maintain this lovely state and everything's fine.

But if the input isn't known at compile-time then it's still just a normal function and will be called at runtime.

So the constexpr is a property of the function ("possible to evaluate at compile time" for some input, not for all input) not of your function/input combination in this specific case (so not for this particular input either).

It's a bit like how a function could take a const int& but that doesn't mean the original object had to be const. Here, similarly, constexpr adds constraints onto the function, without adding constraints onto the function's input.

Admittedly it's all a giant, confusing, nebulous mess (C++! Yay!). Just remember, your code describes the meaning of a program! It's not a direct recipe for machine instructions at different phases of compilation.

(To really enforce this you'd have the integer be a template argument.)

  • 1
    This answer is clearly correct. I would just add that if you add constexpr to a variable it is enforced compile time. So <code> constexpr auto j = PlusOne(i); // main.cpp:13:31: error: the value of 'i' is not usable in a constant expression constexpr auto j = PlusOne(5); // OK </code>
    – Jay Miller
    Sep 12 '18 at 19:50

What would be the correct interpretation of "possible to evaluate the value of the function at compile time"?

If all the arguments to the function are evaluatable at compile time, then the return value of the function can be evaluated at compile time.

However, if the values of the arguments to the function are known only at run time, then the retun value of the function can only be evaluated at run time.

Hence, it possible to evaluate the value of the function at compile time but it is not a requirement.

  • Thank you, the official description seems incompletely/poorly worded in my opinion. Sep 10 '18 at 19:00
  • 1
    @Apollys, That's not the worst of it :) See the actual standard and you would know what I mean. That's why we need language lawyers.
    – R Sahu
    Sep 10 '18 at 19:08

All the answers are correct, but I want to give one short example that I use to explain how ridiculously unintuitive constexpr is.

#include <cstdlib>
constexpr int fun(int i){
    if (i==42){
        return 47;
    } else {
        return rand();

int main()
    int arr[fun(42)];

As a side note: some people find constexpr status unsatisfying so they proposed constexpr! keyword addition to the language.


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