I have the following helper function:

template<typename T, std::size_t N>
constexpr std::size_t Length(const T(&)[N]) {
    return N;

Which returns the length of a static array. In the past this always has worked but when I do this:

struct Foo
    unsigned int temp1[3];
    void Bar()
        constexpr std::size_t t = Length(temp1); // Error here

I get an error when using MSVS 2017:

error C2131: expression did not evaluate to a constant

note: failure was caused by a read of a variable outside its lifetime

note: see usage of 'this'

I was hoping someone can shed light on what I'm doing wrong.

  • Unrelated, but you might as well make Length noexcept as well - there's no reasonable scenario where it would ever throw an exception. – Jesper Juhl Jun 18 '18 at 21:01
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    Seems to work ok on gcc. – super Jun 18 '18 at 21:04
  • 1
    Looks like an MSVC bug to me. This should be a constant expression, I do not see any reason why it would not be. – SergeyA Jun 18 '18 at 21:06
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    @super: No, it doesn't work in GCC: coliru.stacked-crooked.com/a/927ce1d01daf819e. GCC without -pedantic-errors might allow it because it supports VLA in C++. With -pedantic-errors it fails in C++17 GCC as well. – AnT Jun 18 '18 at 21:08
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    @JesperJuhl Sorry, version 14.14.26428 – James Jun 18 '18 at 21:48

MSVC is correct. Length(temp1) is not a constant expression. From [expr.const]p2

An expression e is a core constant expression unless the evaluation of e, following the rules of the abstract machine, would evaluate one of the following expressions:

  • this, except in a constexpr function or a constexpr constructor that is being evaluated as part of e;

temp1 evaluates this implicitly (because you are referring to this->temp1), and so you don't have a constant expression. gcc and clang accept it because they support VLAs as an extension (try compiling with -Werror=vla or -pedantic-errors).

Why isn't this allowed? Well, you could access the underlying elements and potentially modify them. This is completely fine if you are dealing with a constexpr array or an array that is being evaluated as a constant expression, but if you are not, then you cannot possibly have a constant expression as you will be manipulating values that are set at run time.

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    If you want to test standard validity of the code with GCC, then tiptoeing around its numerous extensions with narrow-targeted -Werror=vla would make little sense. The proper combination of flags in such cases is -std=... and -pedantic-errors. – AnT Jun 18 '18 at 21:16
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    @AnT While I completely agree that disabling extensions generally is the way to go, we were specifically talking about VLAs here, so I thought I'd just mention that warning option (-Wvla) specifically. Also, sometimes, getting rid of extensions in a codebase has to happen one extension at a time to be practical. – Jesper Juhl Jun 18 '18 at 21:31
  • Your answer sounds rather roundabout... I think the direct way of answering this question would be "the compiler does not account for the fact that you disregard the actual element values, which are not constant expressions". – Mehrdad Jun 18 '18 at 22:38
  • @Jesper Juhl: Yes, I agree in general. I'm just saying that in this specific case when I compile this in GCC without -pedantic-errors I don't even get a warning. It is completely silent. I.e. there's no reason for me to even begin to suspect that something is wrong, let alone worry about something as specific as VLA. – AnT Jun 18 '18 at 23:45
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    @Mehrdad That makes it sound like a quality of implementation issue. But a compiler that accepted this code without any diagnostic message would technically be incorrect. – aschepler Jun 19 '18 at 0:14

seems to work.

Unfortunately, I cannot comment, but Mehrdad 's solution is wrong. The reason: it is not technically undefined behavior but it is undefined behavior. During constexpr evaluation, the compiler must catch undefined behavior. Therefore, the code is ill-formed.

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    The code is ill-formed, and as my link above shows: gcc rejects it. So, there is not extension. – Mi-He Jul 2 '18 at 12:20

Your question's already been answered, but in terms of how to "fix" it, a quick-and-dirty way is to replace



Length(*(true ? NULL : &temp1))

which I think is technically undefined behavior but practically going to work fine for MSVC.

If you need a solution that works despite the UB, you can change Length to use a pointer:

template<typename T, std::size_t N>
constexpr std::size_t Length(const T(*)[N]) {
    return N;

and then you can use Length(true ? NULL : &temp1).

  • Is it more of an extension then UB? Because UB in a constant expression results in ill-formed, which the implementation can side-step with an extension. – Rakete1111 Jun 19 '18 at 8:26
  • @Rakete1111: That seems plausible but I really don't know. I was just trying to provide a workaround in case someone needed to get code working (which I tested for MSVC). – Mehrdad Jun 19 '18 at 8:33

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