arithmoi-0.9.0.0: Efficient basic number-theoretic functions.

Copyright(c) 2011 Daniel Fischer
LicenseMIT
MaintainerDaniel Fischer <daniel.is.fischer@googlemail.com>
Safe HaskellNone
LanguageHaskell2010

Math.NumberTheory.Powers.Cubes

Description

Functions dealing with cubes. Moderately efficient calculation of integer cube roots and testing for cubeness.

Synopsis

Documentation

integerCubeRoot :: Integral a => a -> a Source #

Calculate the integer cube root of an integer n, that is the largest integer r such that r^3 <= n. Note that this is not symmetric about 0, for example integerCubeRoot (-2) = (-2) while integerCubeRoot 2 = 1.

integerCubeRoot' :: Integral a => a -> a Source #

Calculate the integer cube root of a nonnegative integer n, that is, the largest integer r such that r^3 <= n. The precondition n >= 0 is not checked.

exactCubeRoot :: Integral a => a -> Maybe a Source #

Returns Nothing if the argument is not a cube, Just r if n == r^3.

isCube :: Integral a => a -> Bool Source #

Test whether an integer is a cube.

isCube' :: Integral a => a -> Bool Source #

Test whether a nonnegative integer is a cube. Before integerCubeRoot is calculated, a few tests of remainders modulo small primes weed out most non-cubes. For testing many numbers, most of which aren't cubes, this is much faster than let r = cubeRoot n in r*r*r == n. The condition n >= 0 is not checked.

isPossibleCube :: Integral a => a -> Bool Source #

Test whether a nonnegative number is possibly a cube. Only about 0.08% of all numbers pass this test. The precondition n >= 0 is not checked.