This is one of the problems where the "Scrap Your Boilerplate" style generic libraries shine!
The one I'm most familiar with is the
uniplate package, but I don't actually have it installed at the moment, so I'll use the (very similar) functionality found in the
lens package. The idea here is that it uses
Data.Data.Data (which is the best qualified name ever) and related classes to perform generic operations in a polymorphic way.
Here's the simplest possible example:
alphaConvert :: Module -> Module
alphaConvert = template %~ changeName
changeName :: Name -> Name
changeName (Ident n) = Ident $ n ++ "_conv"
changeName n = n
(%~) operator is from
lens and just means to to apply the function
changeName to everything selected by the generic traversal
template. So what this does is find every alphanumeric identifier and append
_conv to it. Running this program on its own source produces this:
module AlphaConv where
instance Plated_conv Module_conv
= do ParseOk_conv md_conv <- parseFile_conv "AlphaConv.hs"
putStrLn_conv $ prettyPrint_conv md_conv
let md'_conv = alphaConvert_conv md_conv
putStrLn_conv $ prettyPrint_conv md'_conv
alphaConvert_conv :: Module_conv -> Module_conv
alphaConvert_conv = template_conv %~ changeName_conv
changeName_conv :: Name_conv -> Name_conv
changeName_conv (Ident_conv n_conv)
= Ident_conv $ n_conv ++ "_conv"
changeName_conv n_conv = n_conv
Not terribly useful since it doesn't distinguish between identifiers bound locally and those defined in an outside scope (such as being imported), but it demonstrates the basic idea.
lens may seem a bit intimidating (it has a lot more functionality than just this); you may find
uniplate or another library more approachable.
The way you'd approach your actual problem would be a multi-part transformation that first selects the subexpressions you want to alpha-convert inside of, then uses a transformation on those to modify the names you want changed.