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This Raku module provides several routines to operate with the fractional parts of a number. The
*frac routines also operate on complex numbers.
use Math::FractionalPart :afrac; say (afrac -3.2); # Output <<0.2>> say (frac -3.2); # Output <<-0.2>>
There are three different algebraic functions that operate on numbers and return their fractional parts. They all return the same result when operating on non-negative numbers, but all three return different results when operating on negative numbers. See the References for more details. Note that Ref. 2 shows frac operating in the complex plane as
frac(x + i y) = frac(x) + i frac(y).
The following table shows the routines that have been implemented in this module.
|frac||x - ⌊x⌋||frac(-1.3): 0.7||1|
|afrac|||x| - ⌊|x|⌋||afrac(-1.3): 0.3||2|
|ofrac||x - ⌊|x|⌋⋅sign(x)||ofrac(-1.3): -0.3||3|
Sometimes it is useful to know the number of digits in the fractional part of a number. For example, in creating tests for operations on numbers, one must often compare results of operations on real numbers when being able to compare to the same numbers of decimal places is required.
Such a function is
frac-part-digits, with alias names of
ndp. The functions return the number of decimal digits to the right of the decimal point for a real number.
See Ref. 1, frac version 1 (per Graham, Knuth, et alii, 1992).
See Ref. 1, frac version 2 (per Dainith, 2004); Ref. 3, p. 7. Consider mnemonic 'a' for 'absolute value' or 'astronomical'.
See Ref. 1, frac version 3 (an odd function); Ref. 2: Wolfram's FractionPart function. Consider mnemonic 'o' for 'odd function'.
Wikipedia article on Fractional Part.
Wolfram article on Fractional Part.
Celestial Calculations: A Gentle Introduction to Computational Astronomy, J. L. Lawrence, 2018, MIT Press.
Tom Browder [email protected]
© 2021 Tom Browder
This library is free software; you can redistribute it or modify it under the Artistic License 2.0.