DEFTHM

prove and name a theorem
Major Section:  EVENTS

Examples:
(defthm assoc-of-app
        (equal (app (app a b) c)
               (app a (app b c))))
The following nonsensical example illustrates all the optional arguments but is illegal because not all combinations are permitted. See hints for a complete list of hints.
(defthm main
        (implies (hyps x y z) (concl x y z))
       :rule-classes (:REWRITE :GENERALIZE)
       :instructions (induct prove promote (dive 1) x
                             (dive 2) = top (drop 2) prove)
       :hints (("Goal"
                :do-not '(generalize fertilize)
                :in-theory (set-difference-theories
                             (current-theory :here)
                             '(assoc))
                :induct (and (nth n a) (nth n b))
                :use ((:instance assoc-of-append
                                 (x a) (y b) (z c))
                      (:functional-instance
                        (:instance p-f (x a) (y b))
                        (p consp)
                        (f assoc)))))
       :otf-flg t
       :doc "#0[one-liner/example/details]")

General Form:
(defthm name term
        :rule-classes rule-classes
        :instructions instructions
        :hints        hints
        :otf-flg      otf-flg
        :doc          doc-string)
where name is a new symbolic name (see name), term is a term alleged to be a theorem, and rule-classes, instructions, hints, otf-flg and doc-string are as described in their respective documentation. The five keyword arguments above are all optional, however you may not supply both :instructions and :hints, since one drives the proof checker and the other drives the theorem prover. If :rule-classes is not specified, the list (:rewrite) is used; if you wish the theorem to generate no rules, specify :rule-classes nil.

When ACL2 processes a defthm event, it first tries to prove the term using the indicated hints (see hints) or instructions (see proof-checker). If it is successful, it stores the rules described by the rule-classes (see rule-classes), proving the necessary corollaries.