Nominal abstract syntax and higher-order abstract syntax provide a means for
describing binding structure which is higher-level than traditional techniques.
These approaches have spawned two different communities which have developed
along similar lines but with subtle differences that make them difficult to
relate. The nominal abstract syntax community has devices like names,
freshness, name-abstractions with variable capture, and the new-quantifier,
whereas the higher-order abstract syntax community has devices like
lambda-binders, lambda-conversion, raising, and the nabla-quantifier. This
paper aims to unify these communities and provide a concrete correspondence
between their different devices. In particular, we develop a
semantics-preserving translation from alpha-Prolog, a nominal abstract syntax
based logic programming language, to G-, a higher-order abstract syntax based
logic programming language. We also discuss higher-order judgments, a common
and powerful tool for specifications with higher-order abstract syntax, and we
show how these can be incorporated into G-. This establishes G- as a language
with the power of higher-order abstract syntax, the fine-grained variable
control of nominal specifications, and the desirable properties of higher-order
judgments.Comment: To appear in PPDP 201