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While working with macros, I have reached the point (I have been trying hard to avoid it) where I need to update those nodes in the AST which hold certain condition. For instance, let's say I would like to update each node:

Literal(Constant(1))

with the value:

Literal(Constant(2))

Those AST nodes could be anywhere in the expression tree, so I cannot use an ad-hoc pattern matcher. Obviously, the last thing I would like to do is to code a full pattern matcher which is able to cover all the compiler primitives. I have been searching in the API but I have the impression that methods such as collect and the traversable family are not good enough to fulfill my needs, since they treat the tree as a linear thing, and I want the whole updated tree as a result. So, is it possible to update an immutable expression tree in a smart way? Why doesn't exist such 'update' operation in the standard API?

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For plugins there is a TreeTransformer. I suppose there must be a similar for macros, perhaps even the same. –  pedrofurla Jul 9 '12 at 15:17
    
Probably you will want to check out zippers –  Nikita Volkov Jul 9 '12 at 15:21
    
@NikitaVolkov, i'd say that if he wasn't asking in the context of macros. –  pedrofurla Jul 9 '12 at 15:39
1  
What I talked about scala-lang.org/archives/downloads/distrib/files/nightly/docs/… - but it seems to be for plugins only. –  pedrofurla Jul 9 '12 at 15:46
    
Transformers seem really interesting. I'm going to look for its possible application in macros. Thank you! –  jeslg Jul 9 '12 at 16:12

2 Answers 2

up vote 2 down vote accepted

Here's an example of using an AST transformer in a Scala macro:

https://github.com/retronym/macrocosm/blob/171be7e/src/main/scala/com/github/retronym/macrocosm/Macrocosm.scala#L129

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I really have to look up the source code for Transformer. It looks like the XML transform library, and that library has exponential performance on the depth of the tree. –  Daniel C. Sobral Jul 9 '12 at 20:21
    
A wild shot at the issue: does this relate to top-down vs bottom-up traversal? In a top-down traversal, changing a leaf implies rebuilding the tree above. The implementation of traceImpl, in the link above, suggests that new trees are constructed bottom-up (at least there). But, in general, it depends on how you call super.transform. –  Blaisorblade Jul 27 '12 at 1:33

Modifying poly-typed nodes in data structures generically is a classic case of datatype generics (parameterization of code via type constructor).

Several approaches exist for such operations, such as the "Scrap Your Boilerplate" approach, which define datatype generic traversal functions.

In Haskell, the node update function is parameterized in two dimensions: by datatype and by code -- so you can apply different update functions to different types, anywhere in a structure:

-- | Apply a transformation everywhere in bottom-up manner
everywhere :: (forall a. Data a => a -> a)
           -> (forall a. Data a => a -> a)

Doing so in Haskell relies heavily on type classes. In Scala, there are several ported examples

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