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C++20 introduces standard library header, <numbers>, with definitions in namespace std::numbers for math constants such as sqrt2 and sqrt3. It provide inverse values like inv_sqrt3, but not inv_sqrt2. Why is inv_sqrt2 missing?

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Why is inv_sqrt2 missing?

The library defines a minimal set of commonly-used constants as precisely as the type will allow. It can be tricky to express (√3)-1 without introducing rounding errors, hence inv_sqrt3. However, (√2)-1 can easily be expressed as: sqrt2 / 2, so inv_sqrt2 isn't defined.

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  • Wouldn't the same reasoning apply to sqrt3 / 3, or am I missing something?
    – cigien
    May 19, 2020 at 21:16
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    @cigien sqrt2/2 suffers no loss of precision because division by 2 is exact in IEEE arithmetic. Division by 3 not so much. May 19, 2020 at 21:19
  • @RaymondChen it might not be exact, but don't IEEE arithmetic rules dictate that it will be accurate to 1 LSB? I don't see how a hard coded constant could be more accurate. May 19, 2020 at 21:24
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    @MarkRansom The point is that given sqrt2 with maximum possible accuracy, you can derive 1/sqrt2 with maximum possible accuracy, since it's just decrementing the exponent by 1. May 19, 2020 at 21:35
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    @MarkRansom: You round twice in forming the constant and then dividing. Only one of those is inevitable in representing whatever final value. May 19, 2020 at 23:49

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