This problem arises because TH quotes are type checked when they are compiled, with splices replaced by variables. This is usually a good idea, because it allows many kinds of problems to be detected before the splice is run, but in some cases this can make the compiler wrongfully reject a splice that would generate valid code.
In this case, this means that the compiler tries to check this code:
data Alpha = Alpha t deriving (Show, Read)
This doesn't work because the derived
Read instances need to use
t, but since
t is not a type parameter of
Alpha, it cannot add the necessary constraints. Of course, when this splice is run,
t is replaced by a concrete type, so the appropriate instances will be available without the need for any constraints, so this is one of the cases where the compiler is being over-cautious.
The workaround is to not use quoting, but instead use TH combinators, which are not subject to these extra checks. It's messy, but it works:
makeAlpha n = sequence [dataD (cxt ) alpha 
[normalC alpha [strictType notStrict (conT n)]] [''Show, ''Read]]
where alpha = mkName "Alpha"
There has been some talk about relaxing the checks done on quotes, but for now you'll just have to deal with it.