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(expr-list-rename-fn c$::expr-list uid new-fn) → fty::result
Theorem:
(defthm expr-list-rename-fn-type-prescription (true-listp (expr-list-rename-fn c$::expr-list uid new-fn)) :rule-classes :type-prescription)
Theorem:
(defthm expr-list-rename-fn-when-atom (implies (atom c$::expr-list) (equal (expr-list-rename-fn c$::expr-list uid new-fn) nil)))
Theorem:
(defthm expr-list-rename-fn-of-cons (equal (expr-list-rename-fn (cons c$::expr c$::expr-list) uid new-fn) (cons (expr-rename-fn c$::expr uid new-fn) (expr-list-rename-fn c$::expr-list uid new-fn))))
Theorem:
(defthm expr-list-rename-fn-of-append (equal (expr-list-rename-fn (append acl2::x acl2::y) uid new-fn) (append (expr-list-rename-fn acl2::x uid new-fn) (expr-list-rename-fn acl2::y uid new-fn))))
Theorem:
(defthm consp-of-expr-list-rename-fn (equal (consp (expr-list-rename-fn c$::expr-list uid new-fn)) (consp c$::expr-list)))
Theorem:
(defthm len-of-expr-list-rename-fn (equal (len (expr-list-rename-fn c$::expr-list uid new-fn)) (len c$::expr-list)))
Theorem:
(defthm nth-of-expr-list-rename-fn (equal (nth acl2::n (expr-list-rename-fn c$::expr-list uid new-fn)) (if (< (nfix acl2::n) (len c$::expr-list)) (expr-rename-fn (nth acl2::n c$::expr-list) uid new-fn) nil)))
Theorem:
(defthm expr-list-rename-fn-of-revappend (equal (expr-list-rename-fn (revappend acl2::x acl2::y) uid new-fn) (revappend (expr-list-rename-fn acl2::x uid new-fn) (expr-list-rename-fn acl2::y uid new-fn))))
Theorem:
(defthm expr-list-rename-fn-of-reverse (equal (expr-list-rename-fn (reverse c$::expr-list) uid new-fn) (reverse (expr-list-rename-fn c$::expr-list uid new-fn))))