The value ofstd::numeric_limits<T>::digits10 is the number of base-10 digits that can be represented by the typeT without change, that is, any number with this many significant decimal digits can be converted to a value of typeT and back to decimal form, without change due to rounding or overflow. For base-radix types, it is the value ofdigits() (digits-1 for floating-point types) multiplied by\(\small \log_{10}{radix}\)log10(radix) and rounded down.

[edit]Standard specializations

[edit]Example

An 8-bit binary type can represent any two-digit decimal number exactly, but 3-digit decimal numbers 256..999 cannot be represented. The value ofdigits10 for an 8-bit type is 2 (8*std::log10(2) is 2.41)

The standard 32-bit IEEE 754 floating-point type has a 24 bit fractional part (23 bits written, one implied), which may suggest that it can represent 7 digit decimals (24*std::log10(2) is 7.22), but relative rounding errors are non-uniform and some floating-point values with 7 decimal digits do not survive conversion to 32-bit float and back: the smallest positive example is8.589973e9, which becomes8.589974e9 after the roundtrip. These rounding errors cannot exceed one bit in the representation, anddigits10 is calculated as(24-1)*std::log10(2), which is 6.92. Rounding down results in the value 6.

Likewise, the 16-digit string9007199254740993 does not survive text->double->text roundtrip, becoming9007199254740992: the 64-bit IEEE 754 type double guarantees this roundtrip only for 15 decimal digits.

[edit]See also

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