dunai-0.6.0: Generalised reactive framework supporting classic, arrowized and monadic FRP.

Safe HaskellSafe
LanguageHaskell2010

Data.MonadicStreamFunction.Instances.Num

Contents

Description

Number instances for MSFs that produce numbers. This allows you to use numeric operators with MSFs that output numbers, for example, you can write:

msf1 :: MSF Input Double -- defined however you want
msf2 :: MSF Input Double -- defined however you want
msf3 :: MSF Input Double
msf3 = msf1 + msf2

instead of

msf3 = (msf1 &&& msf2) >>> arr (uncurry (+))

Instances are provided for the type classes Num, Fractional and Floating.

Orphan instances

(Monad m, Floating b) => Floating (MSF m a b) Source #

Floating instance for MSFs.

Instance details

Methods

pi :: MSF m a b #

exp :: MSF m a b -> MSF m a b #

log :: MSF m a b -> MSF m a b #

sqrt :: MSF m a b -> MSF m a b #

(**) :: MSF m a b -> MSF m a b -> MSF m a b #

logBase :: MSF m a b -> MSF m a b -> MSF m a b #

sin :: MSF m a b -> MSF m a b #

cos :: MSF m a b -> MSF m a b #

tan :: MSF m a b -> MSF m a b #

asin :: MSF m a b -> MSF m a b #

acos :: MSF m a b -> MSF m a b #

atan :: MSF m a b -> MSF m a b #

sinh :: MSF m a b -> MSF m a b #

cosh :: MSF m a b -> MSF m a b #

tanh :: MSF m a b -> MSF m a b #

asinh :: MSF m a b -> MSF m a b #

acosh :: MSF m a b -> MSF m a b #

atanh :: MSF m a b -> MSF m a b #

log1p :: MSF m a b -> MSF m a b #

expm1 :: MSF m a b -> MSF m a b #

log1pexp :: MSF m a b -> MSF m a b #

log1mexp :: MSF m a b -> MSF m a b #

(Monad m, Fractional b) => Fractional (MSF m a b) Source #

Fractional instance for MSFs.

Instance details

Methods

(/) :: MSF m a b -> MSF m a b -> MSF m a b #

recip :: MSF m a b -> MSF m a b #

fromRational :: Rational -> MSF m a b #

(Monad m, Num b) => Num (MSF m a b) Source #

Num instance for MSFs.

Instance details

Methods

(+) :: MSF m a b -> MSF m a b -> MSF m a b #

(-) :: MSF m a b -> MSF m a b -> MSF m a b #

(*) :: MSF m a b -> MSF m a b -> MSF m a b #

negate :: MSF m a b -> MSF m a b #

abs :: MSF m a b -> MSF m a b #

signum :: MSF m a b -> MSF m a b #

fromInteger :: Integer -> MSF m a b #