| Maintainer | diagrams-discuss@googlegroups.com |
|---|---|
| Safe Haskell | Safe-Inferred |
Data.Monoid.Action
Description
Monoid and semigroup actions.
Documentation
Type class for monoid (and semigroup) actions, where monoidal
values of type m "act" on values of another type s.
Instances are required to satisfy the laws
act mempty = id
act (m1 `
mappend` m2) = act m1 . act m2
Semigroup instances are required to satisfy the second law but with
'()' instead of mappend. Additionally, if the type s has
any algebraic structure, act m should be a homomorphism. For
example, if s is also a monoid we should have act m mempty =
mempty and act m (s1 `.
mappend` s2) = (act m s1) `mappend`
(act m s2)
By default, act = const id, so for a type M which should have
no action on anything, it suffices to write
instance Action M s
with no method implementations.
It is a bit awkward dealing with instances of Action, since it
is a multi-parameter type class but we can't add any functional
dependencies---the relationship between monoids and the types on
which they act is truly many-to-many. In practice, this library
has chosen to have instance selection for Action driven by the
first type parameter. That is, you should never write an
instance of the form Action m SomeType since it will overlap
with instances of the form Action SomeMonoid t. Newtype
wrappers can be used to (awkwardly) get around this.
Instances
| Action () l | |
| Action m s => Action (Option m) s |
|
| Action (SM a) () | |
| Action m n => Action (Split m) n | By default, the action of a split monoid is the same as for the underlying monoid, as if the split were removed. |
| (Action a a', Action (SM a) l) => Action (SM a) (Option a', l) | |
| (Action (SM a) l2, Action l1 l2) => Action (a, l1) l2 | |
| (Action m r, Action n r) => Action (:+: m n) r | Coproducts act on other things by having each of the components act individually. |