Is it well-specified (for unsigned types in general), that:

static_assert(-std::size_t{1} == ~std::size_t{0}, "!");

I just looked into libstdc++'s std::align implementation and note using std::size_t negation:

inline void*
align(size_t __align, size_t __size, void*& __ptr, size_t& __space) noexcept
  const auto __intptr = reinterpret_cast<uintptr_t>(__ptr);
  const auto __aligned = (__intptr - 1u + __align) & -__align;
  const auto __diff = __aligned - __intptr;
  if ((__size + __diff) > __space)
    return nullptr;
      __space -= __diff;
      return __ptr = reinterpret_cast<void*>(__aligned);
  • 3
    "It is improbably, that libstdc++ contain UB." When implementing the standard itself, you need not worry about UB because you can just define that instance of UB to do the right thing. This discussion comes up every time someone looks at the implementation of offsetof. – Baum mit Augen Jan 28 '18 at 20:08
  • 1
    C != C++. Tag only with the language that you're using, unless both are actually relevant. Your code currently is C++, not C. – tambre Jan 28 '18 at 20:09
  • @BaummitAugen I stated that. What wrong? – Tomilov Anatoliy Jan 28 '18 at 20:11
  • @Orient "Wrong" is a strong word, just saying that the issue of UB does not apply to the code that implements the language as it does to the code we mere users write. – Baum mit Augen Jan 28 '18 at 20:13
  • @tambre I started discussion of thing relevant to both C and C++. You are wrong, If you think, that code for all the tags should be presented into the question. It is superfluous. Especially in case of C, C++ and discussed topic. – Tomilov Anatoliy Jan 28 '18 at 20:14

Unsigned integer types are defined to wrap around, and the highest possible value representable in an unsigned integer type is the number with all bits set to one - so yes.

As cpp-reference states it (arithmetic operators / overflow):

Unsigned integer arithmetic is always performed modulo 2n where n is the number of bits in that particular integer. E.g. for unsigned int, adding one to UINT_MAX gives ​0​, and subtracting one from 0​ gives UINT_MAX.

Related: Is it safe to use negative integers with size_t?

  • What does it mean? How simple negation connected with wraping around? Should I substitute -std::size_t{x} -> 0 - std::size_t{x} to derive result? – Tomilov Anatoliy Jan 28 '18 at 20:03
  • @Orient Simply put, it implements math in Z/64 (for a 64 bit integer) by selecting the representative of each equivalence class that lies in [0, 2^64 - 1]. And thus -1 ~ 2^64 - 1 – Baum mit Augen Jan 28 '18 at 20:06

Is it well-specified (for unsigned types in general), that:

static_assert(-std::size_t{1} == ~std::size_t{0}, "!");

No, it is not.

For calculations using unsigned types, the assertion must hold. However, this assertion is not guaranteed to use unsigned types. Unsigned types narrower than int would be promoted to signed int or unsigned int (depending on the types' ranges) before - or ~ is applied. If it is promoted to signed int, and signed int does not use two's complement for representing negative values, the assertion can fail.

libstdc++'s code, as shown, does not perform any arithmetic in any unsigned type narrower than int though. The 1u in __aligned ensures each of the calculations use unsigned int or size_t, whichever is larger. This applies even to the subtraction in __space -= __diff.

Unsigned types at least as wide as unsigned int do not undergo integer promotions, so arithmetic and logical operations on them is applied in their own type, for which Johan Lundberg's answer applies: that's specified to be performed modulo 2N.

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