2 research outputs found
A Computational Interpretation of Context-Free Expressions
We phrase parsing with context-free expressions as a type inhabitation
problem where values are parse trees and types are context-free expressions. We
first show how containment among context-free and regular expressions can be
reduced to a reachability problem by using a canonical representation of
states. The proofs-as-programs principle yields a computational interpretation
of the reachability problem in terms of a coercion that transforms the parse
tree for a context-free expression into a parse tree for a regular expression.
It also yields a partial coercion from regular parse trees to context-free
ones. The partial coercion from the trivial language of all words to a
context-free expression corresponds to a predictive parser for the expression