I am thinking about a DSL / domain design to analyse a big bunch of maven dependencies.
Input is a list of poms (effectively a map between poms and physical location), which I think will be parsed as "flat" (i.e. non-recursive) files to some nice scala type like this:
class Artifact( val groupId : String, val artifactId : String, val version : String ) class Module( val id : Artifact, val location : URI, // any good type for this ? val parent : Option(Artifact), val modules : List(Artifact), val dependencies : List(Artifact) )
Then there are three structures on that "nodes"
- inheritance: by <parent> and <modules>
- dependencies: by <dependency>
- physical: filesystem / svn dir-layout
Question: How should these be designed?
Some possibilities in my mind:
- Impose structure on modules them selves, e.g. by making the list of dependencies mutable, and change its type to List(Either(Artifact,Module)).
- Reuse collection API, and map inheritance tree to Tree(Module). But what with the dependency graph ?
- Design completely new structures and map the list of poms onto this
- Others? ...
Of course, I want to have as much information as possible in the data-structure to avoid repeated calculations. Outline is:
- parse list of flat files
- enrich to structure (either by structure update (mutable) or mapping to a different structure (immutable/functional).
- query rich structure.
Things I want to do with this:
- find incoming dependencies
- find "clusters"
- find relations of nth grade
- give refactoring hints (pull-up dependencies, merge modules)
- render pom.xml as html, browse to related artifacts. (similar to http://jarvana.com)
Thanks for any insights ...