Having some idea of what the Comonad typeclass is in Haskell, I've heard about the Store comonad. But looking at Control.Comonad.Store.Lazy, I don't really get it. What does it mean? What is it for? I've heard that Store = CoState, the dual of the State Monad. What does that mean?
It's much easier if you look at the definition of StoreT itself.
You can think of it as a "place" in a larger structure. For instance, a lens is just a > Store b a
; you get the value of the b field, and a function b > a
to put a new value back into the larger context.
Considering it in its simplified, nontransformer form:
data Store s a = Store (s > a) s
instance Functor (Store s) where
fmap f (Store g s) = Store (f . g) s
instance Extend (Store s) where
duplicate (Store f s) = Store (Store f) s
instance Comonad (Store s) where
extract (Store f s) = f s
i.e. duplicate
changes the s > a
into an s > Store s a
that just returns the "updated" place after replacing the value, and extract
restores the original a by placing the value back into the larger structure.
As far as its relation to State goes, you could look at it like this:
type State s a = s > (a, s)
type Store s a = (s > a, s)

17Just to expand on the connection between State and Store, all monads arise from a composition of adjoint functors. It's commonly known that the functors
(r > _)
(a.k.a. Reader) and(_, r)
(flipped works too, but doesn't fit the usual presentation of State in Haskell, and can't be a Functor instance in Haskell) are adjoint, and if you compose them one way (s > (_ , s)
) you'll get a monad, and if you compose them the other way ((s > _, s)
) you'll get a comonad. – copumpkin Jan 8 '12 at 4:24 
@copumpkin: It's
(_, r)
that can't be a Functor, isn't it?(r, _)
is justinstance Functor ((,) r)
. – ehird Jan 8 '12 at 6:07 

That's a dead link. The modules named
.Lazy
,.Strict
, and.Memo
were removed in version 2.1 for no apparent reason. – Joey Adams Apr 24 '12 at 23:33 
@JoeyAdams I've taken the liberty of fixing the broken link. I think I've heard edwardk give some reason about why he removed
.Strict
modules, but I forget why. – Dan Burton May 29 '12 at 9:14
Given the following definition of store,
data Store s a = Store { peek :: s > a, pos :: s }
I like to think of a Store
as a big warehouse filled with values of type a
. Each value of type a
is slotted into a position labeled by an index value of type s
. Finally there is a forklift parked at position pos
. The forklift can be used to extract
a value of type a
from the store by pulling the value out from where it is parked. You can use seek
to move the forklift to a new absolute position or use seeks
to move the forklift to a new relative location. To update all values of the store use fmap
. Finally extend f
is similar to fmap
except instead of f :: a > a'
we have f :: Store s a > a'
which lets the update function not only have access to the value being updated but also gives access to the value's position and access to the values of everything else in the store. In other words, extend
uses the value plus its surrounding context to perform the update.
A more computery analogy would be to think of a Store
as a big platter of a hard disk with values stored at various positions, plus a head parked at a particular position.