numeric-prelude-0.4.3.1: An experimental alternative hierarchy of numeric type classes

Copyright	(c) Henning Thielemann 2006
Maintainer	numericprelude@henning-thielemann.de
Stability	provisional
Portability	requires multi-parameter type classes
Safe Haskell	None
Language	Haskell98

Number.FixedPoint

Contents

Conversion
other number types
text
Additive
Ring
Field
Algebra
Transcendental

Description

Fixed point numbers. They are implemented as ratios with fixed denominator. Many routines fail for some arguments. When they work, they can be useful for obtaining approximations of some constants. We have not paid attention to rounding errors and thus some of the trailing digits may be wrong.

Synopsis

fromFloat :: C a => Integer -> a -> Integer
fromFixedPoint :: Integer -> Integer -> Integer -> Integer
showPositionalDec :: Integer -> Integer -> String
showPositionalHex :: Integer -> Integer -> String
showPositionalBin :: Integer -> Integer -> String
showPositionalBasis :: Integer -> Integer -> Integer -> String
liftShowPosToInt :: (Integer -> String) -> Integer -> String
toPositional :: Integer -> Integer -> Integer -> (Integer, [Integer])
add :: Integer -> Integer -> Integer -> Integer
sub :: Integer -> Integer -> Integer -> Integer
mul :: Integer -> Integer -> Integer -> Integer
divide :: Integer -> Integer -> Integer -> Integer
recip :: Integer -> Integer -> Integer
magnitudes :: [Integer]
sqrt :: Integer -> Integer -> Integer
root :: Integer -> Integer -> Integer -> Integer
evalPowerSeries :: [Rational] -> Integer -> Integer -> Integer
cos :: Integer -> Integer -> Integer
sin :: Integer -> Integer -> Integer
tan :: Integer -> Integer -> Integer
arctanSmall :: Integer -> Integer -> Integer
arctan :: Integer -> Integer -> Integer
piConst :: Integer -> Integer
expSmall :: Integer -> Integer -> Integer
eConst :: Integer -> Integer
recipEConst :: Integer -> Integer
exp :: Integer -> Integer -> Integer
approxLogBase :: Integer -> Integer -> (Int, Integer)
lnSmall :: Integer -> Integer -> Integer
ln :: Integer -> Integer -> Integer

Conversion

other number types

fromFloat :: C a => Integer -> a -> Integer Source #

fromFixedPoint :: Integer -> Integer -> Integer -> Integer Source #

denominator conversion

text

showPositionalDec :: Integer -> Integer -> String Source #

very efficient because it can make use of the decimal output of show

showPositionalHex :: Integer -> Integer -> String Source #

showPositionalBin :: Integer -> Integer -> String Source #

showPositionalBasis :: Integer -> Integer -> Integer -> String Source #

liftShowPosToInt :: (Integer -> String) -> Integer -> String Source #

toPositional :: Integer -> Integer -> Integer -> (Integer, [Integer]) Source #

Additive

add :: Integer -> Integer -> Integer -> Integer Source #

sub :: Integer -> Integer -> Integer -> Integer Source #

Ring

mul :: Integer -> Integer -> Integer -> Integer Source #

Field

divide :: Integer -> Integer -> Integer -> Integer Source #

recip :: Integer -> Integer -> Integer Source #

Algebra

magnitudes :: [Integer] Source #

sqrt :: Integer -> Integer -> Integer Source #

root :: Integer -> Integer -> Integer -> Integer Source #

Transcendental

evalPowerSeries :: [Rational] -> Integer -> Integer -> Integer Source #

cos :: Integer -> Integer -> Integer Source #

sin :: Integer -> Integer -> Integer Source #

tan :: Integer -> Integer -> Integer Source #

arctanSmall :: Integer -> Integer -> Integer Source #

arctan :: Integer -> Integer -> Integer Source #

piConst :: Integer -> Integer Source #

expSmall :: Integer -> Integer -> Integer Source #

eConst :: Integer -> Integer Source #

recipEConst :: Integer -> Integer Source #

exp :: Integer -> Integer -> Integer Source #

approxLogBase :: Integer -> Integer -> (Int, Integer) Source #

lnSmall :: Integer -> Integer -> Integer Source #

ln :: Integer -> Integer -> Integer Source #