> In computing, a fixed-point number representation is a real data type for a number that has a fixed number of digits after (and sometimes also before) the radix point.
> A value of a fixed-point data type is essentially an integer that is scaled by an implicit specific factor determined by the type.
Yeah, though that notion tends to come with some conceptual shortcomings, like presuming a power of 10 radix. In the above code the radix is implicitly different on leap years, applying such tricks is usually not possible with a fixed point library or language construct.
https://en.wikipedia.org/wiki/Fixed-point_arithmetic
> In computing, a fixed-point number representation is a real data type for a number that has a fixed number of digits after (and sometimes also before) the radix point.
> A value of a fixed-point data type is essentially an integer that is scaled by an implicit specific factor determined by the type.