Major Section: EVENTS
Example: (defevaluator evl evl-list ((length x) (member x y)))See meta.
General Form: (defevaluator ev ev-list ((g1 x1 ... xn_1) ... (gk x1 ... xn_k))where
ev
and ev
-list are new function symbols and g1
, ..., gk
are
old function symbols with the indicated number of formals, i.e.,
each gi
has n_i
formals.
This function provides a convenient way to constrain ev
and ev-list
to be mutually-recursive evaluator functions for the symbols g1
,
..., gk
. Roughly speaking, an evaluator function for a fixed,
finite set of function symbols is a restriction of the universal
evaluator to terms composed of variables, constants, lambda
expressions, and applications of the given functions. However,
evaluator functions are constrained rather than defined, so that the
proof that a given metafunction is correct vis-a-vis a particular
evaluator function can be lifted (by functional instantiation) to a
proof that it is correct for any larger evaluator function.
See meta for a discussion of metafunctions.
Defevaluator
executes an encapsulate
after generating the
appropriate defun
and defthm
events. Perhaps the easiest way to
understand what defevaluator
does is to execute the keyword command
:trans1 (defevaluator evl evl-list ((length x) (member x y)))and inspect the output. This trick is also useful in the rare case that the event fails because a hint is needed. In that case, the output of
:
trans1
can be edited by adding hints, then
submitted directly.
Formally, ev
is said to be an ``evaluator function for g1
,
..., gk
, with mutually-recursive counterpart ev-list
'' iff
ev
and ev-list
are constrained functions satisfying just the
constraints discussed below.
Ev
and ev-list
must satisfy constraints (1)-(4) and (k):
(1) How to ev a variable symbol: (implies (symbolp x) (equal (ev x a) (cdr (assoc-eq x a))))(2) How to ev a constant: (implies (and (consp x) (equal (car x) 'quote)) (equal (ev x a) (cadr x)))
(3) How to ev a lambda application: (implies (and (consp x) (consp (car x))) (equal (ev x a) (ev (caddar x) (pairlis$ (cadar x) (ev-list (cdr x) a)))))
(4) How to ev an argument list: (implies (consp x-lst) (equal (ev-list x-lst a) (cons (ev (car x-lst) a) (ev-list (cdr x-lst) a)))) (implies (not (consp x-lst)) (equal (ev-list x-lst a) nil))
(k) For each i from 1 to k, how to ev an application of gi, where gi is a function symbol of n arguments: (implies (and (consp x) (equal (car x) 'gi)) (equal (ev x a) (gi (ev x1 a) ... (ev xn a)))), where xi is the (cad...dr x) expression equivalent to (nth i x).
Defevaluator
defines suitable witnesses for ev
and ev-list
, proves
the theorems about them, and constrains ev
and ev-list
appropriately. We expect defevaluator
to work without assistance
from you, though the proofs do take some time and generate a lot of
output. The proofs are done in the context of a fixed theory,
namely the value of the constant *defevaluator-form-base-theory*
.