In general a proxy for a type
a is some data type
Proxy a whose values carries no information. So the value is passed around to as a witness for its type (for type inference / type checking purposes). In that case
proxy is isn't a specific data type, but a type variable with kind
* -> *. Meaning you can use whatever you want as a proxy, but the idea remains the same.
The function is,
printtype :: Showtype a => proxy a -> IO ()
and it is supposed to "print a type", but functions are applied to values not types. So rather than passing an actual an argument of type
a you pass an argument of some type
proxy a, whose actual value is irrelevant (and usually will be a data type
Proxy that contains no information).
Look at the instance for a simple type, e.g. pairs,
instance (Showtype a, Showtype b) => Showtype '(a,b) where
showtype _ = showtuple' [
showtype (Proxy :: Proxy a),
showtype (Proxy :: Proxy b)]
First note how
showtype ignores its argument,
showtype _ = ...
the value of the proxy is irrelevant, what matters is that we are printing the type
(a,b). Then we have a call to
showtuple', which is used to print types tuples (of any length) given a list with the printing of the types of each component. For each component we have,
showtype (Proxy :: Proxy a)
showtype (Proxy :: Proxy b)
proxy here is the data type
Proxy which holds no information. In one case it is of type
Proxy a and in the other
Proxy b. The function showtype is defined so that you could also call it with e.g.
showtype ( :: [a])
showtype ( :: [b])
Not that if you were passing around
a rather than
proxy a, here the only value you'd be able to construct (for a generic
a) would be
undefined. Should its evaluation ever be forced it would break your program.