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Language	Haskell98

Data.Colour.SRGB.Linear

Description

Provides a linear colour space with the same gamut as Data.Colour.SRGB.

Synopsis

Documentation

This type represents the human preception of colour. The a parameter is a numeric type used internally for the representation.

The Monoid instance allows one to add colours, but beware that adding colours can take you out of gamut. Consider using blend whenever possible.

Instances

ColourOps Colour Source #
Instance details Methods over :: Num a => AlphaColour a -> Colour a -> Colour a Source # darken :: Num a => a -> Colour a -> Colour a Source #
AffineSpace Colour Source #
Instance details Methods affineCombo :: Num a => [(a, Colour a)] -> Colour a -> Colour a Source #
Eq a => Eq (Colour a) Source #
Instance details Methods (==) :: Colour a -> Colour a -> Bool # (/=) :: Colour a -> Colour a -> Bool #
(Fractional a, Read a) => Read (Colour a) #
Instance details Methods readsPrec :: Int -> ReadS (Colour a) # readList :: ReadS [Colour a] # readPrec :: ReadPrec (Colour a) # readListPrec :: ReadPrec [Colour a] #
(Fractional a, Show a) => Show (Colour a) #
Instance details Methods showsPrec :: Int -> Colour a -> ShowS # show :: Colour a -> String # showList :: [Colour a] -> ShowS #
Num a => Semigroup (Colour a) Source #
Instance details Methods (<>) :: Colour a -> Colour a -> Colour a # sconcat :: NonEmpty (Colour a) -> Colour a # stimes :: Integral b => b -> Colour a -> Colour a #
Num a => Monoid (Colour a) Source #
Instance details Methods mempty :: Colour a # mappend :: Colour a -> Colour a -> Colour a # mconcat :: [Colour a] -> Colour a #

An RGB triple for an unspecified colour space.

Constructors

RGB
Fields channelRed :: !a channelGreen :: !a channelBlue :: !a

Instances

Functor RGB Source #
Instance details Methods fmap :: (a -> b) -> RGB a -> RGB b # (<$) :: a -> RGB b -> RGB a #
Applicative RGB Source #
Instance details Methods pure :: a -> RGB a # (<>) :: RGB (a -> b) -> RGB a -> RGB b # liftA2 :: (a -> b -> c) -> RGB a -> RGB b -> RGB c # (>) :: RGB a -> RGB b -> RGB b # (<*) :: RGB a -> RGB b -> RGB a #
Eq a => Eq (RGB a) Source #
Instance details Methods (==) :: RGB a -> RGB a -> Bool # (/=) :: RGB a -> RGB a -> Bool #
Read a => Read (RGB a) Source #
Instance details Methods readsPrec :: Int -> ReadS (RGB a) # readList :: ReadS [RGB a] # readPrec :: ReadPrec (RGB a) # readListPrec :: ReadPrec [RGB a] #
Show a => Show (RGB a) Source #
Instance details Methods showsPrec :: Int -> RGB a -> ShowS # show :: RGB a -> String # showList :: [RGB a] -> ShowS #

rgb :: Fractional a => a -> a -> a -> Colour a Source #

Constructs a Colour from RGB values using the linear RGB colour with the same gamut as sRGB.

Return RGB values using the linear RGB colour with the same gamut as sRGB.

This is the gamut for the sRGB colour space.