[Git][ghc/ghc][master] Enhance documentation of Data.Complex
Marge Bot (@marge-bot)
gitlab at gitlab.haskell.org
Tue Feb 20 01:37:21 UTC 2024
Marge Bot pushed to branch master at Glasgow Haskell Compiler / GHC
Commits:
cdd939e7 by Jade at 2024-02-19T20:36:46-05:00
Enhance documentation of Data.Complex
- - - - -
1 changed file:
- libraries/base/src/Data/Complex.hs
Changes:
=====================================
libraries/base/src/Data/Complex.hs
=====================================
@@ -50,17 +50,41 @@ infix 6 :+
-- -----------------------------------------------------------------------------
-- The Complex type
--- | Complex numbers are an algebraic type.
+-- | A data type representing complex numbers.
--
--- 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.
+-- You can read about complex numbers [on wikipedia](https://en.wikipedia.org/wiki/Complex_number).
--
--- The 'Foldable' and 'Traversable' instances traverse the real part first.
+-- In haskell, complex numbers are represented as @a :+ b@ which can be thought of
+-- as representing \(a + bi\). 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'.
+-- Apart from the loss of precision due to IEEE754 floating point numbers,
+-- it holds that @z == 'abs' z * 'signum' z at .
--
-- Note that `Complex`'s instances inherit the deficiencies from the type
-- parameter's. For example, @Complex Float@'s 'Ord' instance has similar
-- problems to `Float`'s.
+--
+-- As can be seen in the examples, the 'Foldable'
+-- and 'Traversable' instances traverse the real part first.
+--
+-- ==== __Examples__
+--
+-- >>> (5.0 :+ 2.5) + 6.5
+-- 11.5 :+ 2.5
+--
+-- >>> abs (1.0 :+ 1.0) - sqrt 2.0
+-- 0.0 :+ 0.0
+--
+-- >>> abs (signum (4.0 :+ 3.0))
+-- 1.0 :+ 0.0
+--
+-- >>> foldr (:) [] (1 :+ 2)
+-- [1,2]
+--
+-- >>> mapM print (1 :+ 2)
+-- 1
+-- 2
data Complex a
= !a :+ !a -- ^ forms a complex number from its real and imaginary
-- rectangular components.
@@ -80,38 +104,113 @@ data Complex a
-- Functions over Complex
-- | Extracts the real part of a complex number.
+--
+-- ==== __Examples__
+--
+-- >>> realPart (5.0 :+ 3.0)
+-- 5.0
+--
+-- >>> realPart ((5.0 :+ 3.0) * (2.0 :+ 3.0))
+-- 1.0
realPart :: Complex a -> a
realPart (x :+ _) = x
-- | Extracts the imaginary part of a complex number.
+--
+-- ==== __Examples__
+--
+-- >>> imagPart (5.0 :+ 3.0)
+-- 3.0
+--
+-- >>> imagPart ((5.0 :+ 3.0) * (2.0 :+ 3.0))
+-- 21.0
imagPart :: Complex a -> a
imagPart (_ :+ y) = y
--- | The conjugate of a complex number.
+-- | The 'conjugate' of a complex number.
+--
+-- prop> conjugate (conjugate x) = x
+--
+-- ==== __Examples__
+--
+-- >>> conjugate (3.0 :+ 3.0)
+-- 3.0 :+ (-3.0)
+--
+-- >>> conjugate ((3.0 :+ 3.0) * (2.0 :+ 2.0))
+-- 0.0 :+ (-12.0)
{-# SPECIALISE conjugate :: Complex Double -> Complex Double #-}
conjugate :: Num a => Complex a -> Complex a
conjugate (x:+y) = x :+ (-y)
--- | Form a complex number from polar components of magnitude and phase.
+-- | Form a complex number from 'polar' components of 'magnitude' and 'phase'.
+--
+-- ==== __Examples__
+--
+-- >>> mkPolar 1 (pi / 4)
+-- 0.7071067811865476 :+ 0.7071067811865475
+--
+-- >>> mkPolar 1 0
+-- 1.0 :+ 0.0
{-# SPECIALISE mkPolar :: Double -> Double -> Complex Double #-}
mkPolar :: Floating a => a -> a -> Complex a
mkPolar r theta = r * cos theta :+ r * sin theta
--- | @'cis' t@ is a complex value with magnitude @1@
--- and phase @t@ (modulo @2*'pi'@).
+-- | @'cis' t@ is a complex value with 'magnitude' @1@
+-- and 'phase' @t@ (modulo @2*'pi'@).
+--
+-- @
+-- 'cis' = 'mkPolar' 1
+-- @
+--
+-- ==== __Examples__
+--
+-- >>> cis 0
+-- 1.0 :+ 0.0
+--
+-- The following examples are not perfectly zero due to [IEEE 754](https://en.wikipedia.org/wiki/IEEE_754)
+--
+-- >>> cis pi
+-- (-1.0) :+ 1.2246467991473532e-16
+--
+-- >>> cis (4 * pi) - cis (2 * pi)
+-- 0.0 :+ (-2.4492935982947064e-16)
{-# SPECIALISE cis :: Double -> Complex Double #-}
cis :: Floating a => a -> Complex a
cis theta = cos theta :+ sin theta
-- | The function 'polar' takes a complex number and
--- returns a (magnitude, phase) pair in canonical form:
--- the magnitude is non-negative, and the phase in the range @(-'pi', 'pi']@;
--- if the magnitude is zero, then so is the phase.
+-- returns a ('magnitude', 'phase') pair in canonical form:
+-- the 'magnitude' is non-negative, and the 'phase' in the range @(-'pi', 'pi']@;
+-- if the 'magnitude' is zero, then so is the 'phase'.
+--
+-- @'polar' z = ('magnitude' z, 'phase' z)@
+--
+-- ==== __Examples__
+--
+-- >>> polar (1.0 :+ 1.0)
+-- (1.4142135623730951,0.7853981633974483)
+--
+-- >>> polar ((-1.0) :+ 0.0)
+-- (1.0,3.141592653589793)
+--
+-- >>> polar (0.0 :+ 0.0)
+-- (0.0,0.0)
{-# SPECIALISE polar :: Complex Double -> (Double,Double) #-}
polar :: (RealFloat a) => Complex a -> (a,a)
polar z = (magnitude z, phase z)
--- | The non-negative magnitude of a complex number.
+-- | The non-negative 'magnitude' of a complex number.
+--
+-- ==== __Examples__
+--
+-- >>> magnitude (1.0 :+ 1.0)
+-- 1.4142135623730951
+--
+-- >>> magnitude (1.0 + 0.0)
+-- 1.0
+--
+-- >>> magnitude (0.0 :+ (-5.0))
+-- 5.0
{-# SPECIALISE magnitude :: Complex Double -> Double #-}
magnitude :: (RealFloat a) => Complex a -> a
magnitude (x:+y) = scaleFloat k
@@ -120,8 +219,16 @@ magnitude (x:+y) = scaleFloat k
mk = - k
sqr z = z * z
--- | The phase of a complex number, in the range @(-'pi', 'pi']@.
--- If the magnitude is zero, then so is the phase.
+-- | The 'phase' of a complex number, in the range @(-'pi', 'pi']@.
+-- If the 'magnitude' is zero, then so is the 'phase'.
+--
+-- ==== __Examples__
+--
+-- >>> phase (0.5 :+ 0.5) / pi
+-- 0.25
+--
+-- >>> phase (0 :+ 4) / pi
+-- 0.5
{-# SPECIALISE phase :: Complex Double -> Double #-}
phase :: (RealFloat a) => Complex a -> a
phase (0 :+ 0) = 0 -- SLPJ July 97 from John Peterson
View it on GitLab: https://gitlab.haskell.org/ghc/ghc/-/commit/cdd939e77f2bb20f80310280400b3426598b4eca
--
View it on GitLab: https://gitlab.haskell.org/ghc/ghc/-/commit/cdd939e77f2bb20f80310280400b3426598b4eca
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