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  • Apt

Simplify

Simplify the definition of a given function.

For any function symbol f defined using defun, defun-sk, or the the soft::soft tool, defun-sk2, simplify defines a corresponding new function whose body results from simplifying the body of the definition of f. Simplify may also be used to simplify a given term.

Simplify operates in related but different ways depending on its input: a function symbol introduced with defun (or a wrapper such as defun-nx), a function symbol introduced with defun-sk (or a wrapper such as the soft::soft tool defun-sk2), or a term other than a symbol or a constant. In the first case, (simplify fn ...) expands directly to (simplify-defun fn ...); see simplify-defun. In the second case, (simplify fn ...) expands directly to (simplify-defun-sk fn ...); see simplify-defun-sk. Otherwise, the call, which is of the form (simplify term ...), expands to (simplify-term term ...); see simplify-term. In all three cases, the corresponding documentation topic carefully describes keyword arguments and links to a corresponding topic that contains examples.

Here are three very simple examples you may wish to read before you visit those documentation topics. They give a sense of simplify-defun, simplify-defun-sk, and simplify-term, respectively.

ACL2 !>(defun f1 (x) (car (cons x x)))
[[.. output omitted here ..]]
 F1
ACL2 !>(simplify f1 :new-name f2 :theorem-name f1-is-f2)
(DEFUN F2 (X)
       (DECLARE (XARGS :GUARD T
                       :VERIFY-GUARDS NIL))
       X)
(DEFTHM F1-IS-F2 (EQUAL (F1 X) (F2 X)))
ACL2 !>

ACL2 !>(defun-sk g1 (x y) (exists z (equal (* z 2) (* x y))))
[[.. output omitted here ..]]
 T
ACL2 !>(simplify g1 :theorem-disabled t)
(DEFUN-SK G1$1 (X Y) (EXISTS (Z) (EQUAL (* 2 Z) (* X Y))) :QUANT-OK T)
(DEFTHMD G1-BECOMES-G1$1 (IFF (G1 X Y) (G1$1 X Y)))
ACL2 !>

ACL2 !>(simplify (+ x (- x) 17) :thm-name foo)
(DEFTHM FOO (EQUAL (+ X (- X) 17) 17))
ACL2 !>

See simplify-failure for tips on how to deal with failures and other undesirable results from evaluating calls of simplify.

Subtopics

Simplify-failure
Ways to address failed invocations of the simplify transformation.
ACL2::return-last-blockers
Functions and rules for prog2$ and other macros implemented with return-last.