Let's say I have a computation
class A 𝔪 where foo :: 𝔪 () -> 𝔪 () instance A IO where foo x = do print "prefix" x print "suffix"
Now, suppose I want to write
instance A 𝔪 => A (MyMonadTransformerT γ 𝔪)
Then, in implementing
foo, I'm forced to "unwrap" its argument, e.g.
foo x = lift (foo (unlift x)). This
unlift function can be bad for monadic computation. For a state transformer, it would be forced to forget any changes in the program's state.
It seems to work to create a more general method, which also takes a lifting function, and results in computation
t () -> t (), where
t is the lifted (tranformed) monad.
class Monad 𝔪 => A' 𝔪 where foo' :: Monad t => (forall z . 𝔪 z -> t z) -- lifting function -> t () -> t () foo :: 𝔪 () -> 𝔪 () foo = foo' id instance A' IO where foo' lift x = do lift (print "prefix") x lift (print "suffix") instance A' 𝔪 => A' (StateT γ 𝔪) where foo' lift' x = foo' (lift' . lift) x computation :: Num a => StateT a IO () computation = do foo (put 1 >> lift (print "middle")) v <- get lift $ print ("value", v) run_computation :: Num a => IO a run_computation = execStateT computation 0
Question. Is this the best way? Is there something more general one can write? CPS-style code? Thanks!!