IMHO, Functional Reactive Programming (FRP) is in a sense a general way to solve cache invalidation.
Here is why: stale data in FRP terminology is called a glitch. One of FRP's goals is to guarantee absence of glitches.
FRP is explained in more detail in this 'Essence of FRP' talk and in this SO answer.
In the talk the
Cells represent a cached Object/Entity and a
Cell is refreshed if one of it's dependency is refreshed.
FRP hides the plumbing code associated with the dependency graph and makes sure that there are no stale
Another way (different from FRP) that I can think of is wrapping the computed value (of type
b) into some kind of a writer Monad
Writer (Set (uuid)) b where
Set (uuid) (Haskell notation) contains all the identifiers of the mutable values on which the computed value
b depends. So,
uuid is some kind of a unique identifier that identifies the mutable value/variable (say a row in a database) on which the computed
Combine this idea with combinators that operate on this kind of writer Monad and that might lead to some kind of a general cache invalidation solution if you only use these combinators to calculate a new
b. Such combinators (say a special version of
filter) take Writer monads and
(uuid, a)-s as inputs, where
a is a mutable data/variable, identified by
So every time you change the "original" data
(uuid, a) (say the normalized data in a database from which
b was computed) on which the computed value of type
b depends then you can invalidate the cache that contains
b if you mutate any value
a on which the computed
b value depends, because based on the
Set (uuid) in the Writer Monad you can tell when this happens.
So anytime you mutate something with a given
uuid, you broadcast this mutation to all the cache-s and they invalidate the values
b that depend on the mutable value identified with said
uuid because the Writer monad in which the
b is wrapped can tell if that
b depends on said
uuid or not.
Of course, this only pays off if you read much more often than you write.
A third, practical, approach is to use materialized view-s in databases and use them as cache-es. AFAIK they also aim to solve the invalidation problem. This of course limits the operations that connect the mutable data to the derived data.