I have been using uniplate and SYB and I am trying to transform a list
type Tree = [DataA] data DataA = DataA1 [DataB] | DataA2 String | DataA3 String [DataA] deriving Show data DataB = DataB1 [DataA] | DataB2 String | DataB3 String [DataB] deriving Show
For instance, I would like to traverse my tree and append a value to all [DataB]
So my first thought was to do this:
changeDataB:: Tree -> Tree changeDataB = everywhere(mkT changeDataB') chanegDataB'::[DataB] -> [DataB] changeDataB' <add changes here>
or if I was using uniplate
changeDataB:: Tree -> Tree changeDataB = transformBi changeDataB' chanegDataB'::[DataB] -> [DataB] changeDataB' <add changes here>
The problem is that I only want to search on the full list. Doing either of these searches will cause a search on the full list and all of the sub-lists (including the empty list)
The other problem is that a value in [DataB] may generate a [DataB], so I don't know if this is the same kind of solution as not searching chars in a string.
I could pattern match on DataA1 and DataB3, but in my real application there are a bunch of [DataB]. Pattern matching on the parents would be extensive.
The other thought that I had was to create a
data DataBs = [DataB]
and use that to transform on. That seems kind of lame, there must be a better solution.
Update: The main reason that I need to do this is that I need to
- change the order of [DataB]
- add something to [DataB]
So if you all know a cool way to create a mkT that would match
B1:B2:B3:B4: (which would be per say the full list of [DataB]
or any other derivations of that.
I am siding to just biting the bullet and createing the "DataBs", data type and doing a simple mkT match on that.