haskell98-2.0.0.3: Compatibility with Haskell 98

Safe HaskellSafe
LanguageHaskell98

Complex

Synopsis

Documentation

data Complex a :: * -> *

Complex numbers are an algebraic type.

For a complex number z, abs z is a number with the magnitude of z, but oriented in the positive real direction, whereas signum z has the phase of z, but unit magnitude.

Constructors

!a :+ !a infix 6

forms a complex number from its real and imaginary rectangular components.

Instances

Eq a => Eq (Complex a) 
RealFloat a => Floating (Complex a) 
RealFloat a => Fractional (Complex a) 
Data a => Data (Complex a) 
RealFloat a => Num (Complex a) 
Read a => Read (Complex a) 
Show a => Show (Complex a) 
Typeable (* -> *) Complex 

realPart :: RealFloat a => Complex a -> a

Extracts the real part of a complex number.

imagPart :: RealFloat a => Complex a -> a

Extracts the imaginary part of a complex number.

conjugate :: RealFloat a => Complex a -> Complex a

The conjugate of a complex number.

mkPolar :: RealFloat a => a -> a -> Complex a

Form a complex number from polar components of magnitude and phase.

cis :: RealFloat a => a -> Complex a

cis t is a complex value with magnitude 1 and phase t (modulo 2*pi).

polar :: RealFloat a => Complex a -> (a, a)

The function polar takes a complex number and returns a (magnitude, phase) pair in canonical form: the magnitude is nonnegative, and the phase in the range (-pi, pi]; if the magnitude is zero, then so is the phase.

magnitude :: RealFloat a => Complex a -> a

The nonnegative magnitude of a complex number.

phase :: RealFloat a => Complex a -> a

The phase of a complex number, in the range (-pi, pi]. If the magnitude is zero, then so is the phase.