{-# LANGUAGE FlexibleInstances , MultiParamTypeClasses #-} ----------------------------------------------------------------------------- -- | -- Module : Data.Monoid.Split -- Copyright : (c) 2011 diagrams-core team (see LICENSE) -- License : BSD-style (see LICENSE) -- Maintainer : diagrams-discuss@googlegroups.com -- -- Sometimes we want to accumulate values from some monoid, but have -- the ability to introduce a \"split\" which separates values on -- either side. Only the rightmost split is kept. For example, -- -- > a b c | d e | f g h == a b c d e | f g h -- -- In the diagrams graphics framework this is used when accumulating -- transformations to be applied to primitive diagrams: the 'freeze' -- operation introduces a split, since only transformations occurring -- outside the freeze should be applied to attributes. -- ----------------------------------------------------------------------------- module Data.Monoid.Split ( Split(..), split, unsplit ) where import Data.Semigroup import Data.Monoid.Action infix 5 :| -- | A value of type @Split m@ is either a single @m@, or a pair of -- @m@'s separated by a divider. Single @m@'s combine as usual; -- single @m@'s combine with split values by combining with the -- value on the appropriate side; when two split values meet only -- the rightmost split is kept, with both the values from the left -- split combining with the left-hand value of the right split. -- -- "Data.Monoid.Cut" is similar, but uses a different scheme for -- composition. @Split@ uses the asymmetric constructor @:|@, and -- @Cut@ the symmetric constructor @:||:@, to emphasize the inherent -- asymmetry of @Split@ and symmetry of @Cut@. @Split@ keeps only -- the rightmost split and combines everything on the left; @Cut@ -- keeps the outermost splits and throws away everything in between. data Split m = M m | m :| m deriving (Show) -- | If @m@ is a @Semigroup@, then @Split m@ is a semigroup which -- combines values on either side of a split, keeping only the -- rightmost split. instance Semigroup m => Semigroup (Split m) where (M m1) <> (M m2) = M (m1 <> m2) (M m1) <> (m1' :| m2) = m1 <> m1' :| m2 (m1 :| m2) <> (M m2') = m1 :| m2 <> m2' (m11 :| m12) <> (m21 :| m22) = m11 <> m12 <> m21 :| m22 instance (Semigroup m, Monoid m) => Monoid (Split m) where mempty = M mempty mappend = (<>) -- | A convenient name for @mempty :| mempty@, so @M a \<\> split \<\> -- M b == a :| b@. split :: Monoid m => Split m split = mempty :| mempty -- | \"Unsplit\" a split monoid value, combining the two values into -- one (or returning the single value if there is no split). unsplit :: Semigroup m => Split m -> m unsplit (M m) = m unsplit (m1 :| m2) = m1 <> m2 -- | By default, the action of a split monoid is the same as for -- the underlying monoid, as if the split were removed. instance Action m n => Action (Split m) n where act (M m) n = act m n act (m1 :| m2) n = act m1 (act m2 n)