I'm not sure if I'm too naïve or simply too unknowing.

But why does the following differ?

constexpr auto nInitialCapacity1 = std::wstring().capacity();
const auto     nInitialCapacity2 = std::wstring().capacity();

In Visual Studio 2022/17.0.5 the code above results in:

nInitialCapacity1 = 8
nInitialCapacity2 = 7

Why is the result of the constexpr (compile time) version not equal to the const version of the call?

Thanks for any explanation!

  • 7
    I don't see any reason that the standard library needs to implement this the same way at runtime and at compile-time. The capacity of a default-constructed string is up to the implementation anyway. Feb 1, 2022 at 19:20
  • 1
    @user17732522 You are quite right. All implementation specific! But why should the compile-time version differ from the other? No matter, what numbers will be returned by an implementation, personally I'd expect the same result. Feb 1, 2022 at 19:26
  • 3
    Maybe they cannot do SSO in the usual way, because memory cannot be retyped in constant expressions, although a union-based implementation should also work in constant expressions. Feb 1, 2022 at 19:28
  • constexpr auto nInitialCapacity1 = std::wstring().capacity(); doesn't work in Clang or GCC with -std=c++20 or -std=c++2a. error: constexpr variable 'nInitialCapacity1' must be initialized by a constant expression
    – Brandon
    Feb 1, 2022 at 19:40
  • 3
    @Brandon add -std=c++20 and works fine.
    – IlCapitano
    Feb 1, 2022 at 19:57

2 Answers 2


Microsoft's STL disables short string optimisation in constant evaluated contexts, so it allocates memory instead.

The allocations are always one more than a power of two, so the capacity (which excludes the last L'\0') is always a power of two.

In the non-constant-evaluated version, the short string buffer can hold 8 characters, one of which is a L'\0', so the capacity is 7.

  • 1
    is_constant_evaluated() should be true for both cases though.
    – Barry
    Feb 2, 2022 at 18:25
  • 1
    @Barry Yes in this case because it's a const std::size_t, it would be initialized by a constant expression, and const auto x = std::wstring().capacity(); does give x = 8 (in my version of visual studio), but I'm assuming the original asker didn't have a manifestly constant-evaluated expression given the title of their question
    – Artyer
    Feb 2, 2022 at 18:59
  • Yesterday a colleague and I found out that in VS2202 the debugger visualized in the watch in the tooltip of nInitialCapacity2 the number 7, but in the disassembly window we saw the value 8. Even using TRACE1 for output, printed out 7 not 8. The hypothesis of my colleague is, that the debugger, not knowing about the different behavior of const(expr) or non-conts(expr) calls, just calls the constexpr declared method non-conts(expr) since it doesn't have side effects. In this case the debugger gets a 7 and visualizes the 7 as value while debugging. We have been really surprised by this behavior! Feb 3, 2022 at 9:59

Update by new experiences and observations:

  • The contents of the disassembly window showed, that the result of the const-call to std::wstring::capacity is 8!
  • But the watch window and the tooltip of the variable show 7.

The hypothesis of a colleague is, that the debugger calls the constexpr method capacity non-const, gets the differing result of 7 and visualizes it.

A reason to look into the disassembly window was the unexpected behavior in the following code:

const auto nInitCap = std::wstring().capacity();
const auto nCap     = str.capacity();

if (nCap != nInitCap)
    std::wcout << "capacity " << nCap << "is not equal to the initial capacity " << nInitCap << std::endl;

if (nCap > nInitCap)
    std::wcout << "capacity " << nCap << "is greater than the initial capacity " << nInitCap << std::endl;

The debugger showed for the variables:

nInitCap: 7
nCap:     7

But the code printed out:

capacity 7 is not equal to the initial capacity 7

The capacity call to the const-constructed temporary object returns 8, as to be seen in the disassembly, so the behavior is explainable, even if the debugger of VS2022 17.0.5 shows 7

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