Major Section: RULE-CLASSES
See rule-classes for a general discussion of rule classes and
how they are used to build rules from formulas. An example
:
corollary
formula from which a :refinement
rule might be built is:
Example: (implies (bag-equal x y) (set-equal y x)).Also see defrefinement.
General Form: (implies (equiv1 x y) (equiv2 x y))
Equiv1
and equiv2
must be known equivalence relations. The effect
of such a rule is to record that equiv1
is a refinement of equiv2
.
This means that equiv1
:
rewrite
rules may be used while trying to
maintain equiv2
. See equivalence for a general discussion of
the issues.The macro form (defrefinement equiv1 equiv2)
is an abbreviation for
a defthm
of rule-class :refinement
that establishes that equiv1
is a
refinement of equiv2
. See defrefinement.
Suppose we have the :
rewrite
rule
(bag-equal (append a b) (append b a))which states that
append
is commutative modulo bag-equality.
Suppose further we have established that bag-equality refines
set-equality. Then when we are simplifying append
expressions while
maintaining set-equality we use append
's commutativity property,
even though it was proved for bag-equality.Equality is known to be a refinement of all equivalence relations.
The transitive closure of the refinement relation is maintained, so
if set-equality
, say, is shown to be a refinement of some third
sense of equivalence, then bag-equality
will automatially be known
as a refinement of that third equivalence.
:refinement
lemmas cannot be disabled. That is, once one
equivalence relation has been shown to be a refinement of another,
there is no way to prevent the system from using that information.
Of course, individual :
rewrite
rules can be disabled.
More will be written about this as we develop the techniques.