I wanted to write a parser based on John Hughes' paper Generalizing Monads to Arrows. When reading through and trying to reimplement his code I realized there were some things that didn't quite make sense. In one section he lays out a parser implementation based on Swierstra and Duponchel's paper Deterministic, error-correcting combinator parsers using Arrows. The parser type he describes looks like this:
data StaticParser ch = SP Bool [ch] data DynamicParser ch a b = DP (a, [ch]) -> (b, [ch]) data Parser ch a b = P (StaticParser ch) (DynamicParser ch a b)
with the composition operator looking something like this:
(.) :: Parser ch b c -> Parser ch a b -> Parser ch a c P (SP e2 st2) (DP f2) . P (SP e1 st1) (DP f1) = P (SP (e1 && e2) (st1 `union` if e1 then st2 else )) (DP $ f2 . f1)
The issue is that the composition of parsers
q . p 'forgets'
q's starting symbols. One possible interpretation I thought of is that Hughes' expects all our
DynamicParsers to be total such that a symbol parser's type signature would be
symbol :: ch -> Parser ch a (Maybe ch) instead of
symbol :: ch -> Parser ch a ch. This still seems awkward though since we have to duplicate information putting starting symbol information in both the
DynamicParser. Another issue is that almost all parsers will have the potential to throw which means we will have to spend a lot of time inside
Either creating what is essentially the "monads do not compose problem." This could be remedied by rewriting
DynamicParser itself to handle failure or as an Arrow transformer, but this is straying quite a bit from the paper. None of these issues are addressed in the paper, and the Parser is presented as if it obviously works, so I feel like I must me missing something basic. If someone can catch what I missed that would be super helpful.