We consider a simple extension of logic programming where variables may range
over goals and goals may be arguments of predicates. In this language we can
write logic programs which use goals as data. We give practical evidence that,
by exploiting this capability when transforming programs, we can improve
program efficiency.
We propose a set of program transformation rules which extend the familiar
unfolding and folding rules and allow us to manipulate clauses with goals which
occur as arguments of predicates. In order to prove the correctness of these
transformation rules, we formally define the operational semantics of our
extended logic programming language. This semantics is a simple variant of
LD-resolution. When suitable conditions are satisfied this semantics agrees
with LD-resolution and, thus, the programs written in our extended language can
be run by ordinary Prolog systems.
Our transformation rules are shown to preserve the operational semantics and
termination.Comment: 51 pages. Full version of a paper that will appear in Theory and
Practice of Logic Programming, Cambridge University Press, U