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    • Split

    Vl-modulelist-split

    (vl-modulelist-split x) maps vl-module-split across a list.

    Signature
    (vl-modulelist-split x) → *

    This is an ordinary defprojection.

    Definitions and Theorems

    Function: vl-modulelist-split-exec

    (defun vl-modulelist-split-exec (x acc)
 (declare (xargs :guard (vl-modulelist-p x)))
 (let ((__function__ 'vl-modulelist-split-exec))
   (declare (ignorable __function__))
   (if
     (consp x)
     (vl-modulelist-split-exec (cdr x)
                               (cons (vl-module-split (car x)) acc))
     acc)))

    Function: vl-modulelist-split-nrev

    (defun vl-modulelist-split-nrev (x nrev)
  (declare (xargs :stobjs (nrev)))
  (declare (xargs :guard (vl-modulelist-p x)))
  (let ((__function__ 'vl-modulelist-split-nrev))
    (declare (ignorable __function__))
    (if (atom x)
        (nrev-fix nrev)
      (let ((nrev (nrev-push (vl-module-split (car x))
                             nrev)))
        (vl-modulelist-split-nrev (cdr x)
                                  nrev)))))

    Function: vl-modulelist-split

    (defun vl-modulelist-split (x)
  (declare (xargs :guard (vl-modulelist-p x)))
  (let ((__function__ 'vl-modulelist-split))
    (declare (ignorable __function__))
    (mbe :logic
         (if (consp x)
             (cons (vl-module-split (car x))
                   (vl-modulelist-split (cdr x)))
           nil)
         :exec
         (if (atom x)
             nil
           (with-local-nrev (vl-modulelist-split-nrev x nrev))))))

    Theorem: vl-modulelist-split-of-update-nth

    (defthm vl-modulelist-split-of-update-nth
 (implies
   (<= (nfix acl2::n) (len acl2::x))
   (equal (vl-modulelist-split (update-nth acl2::n acl2::v acl2::x))
          (update-nth acl2::n (vl-module-split acl2::v)
                      (vl-modulelist-split acl2::x))))
 :rule-classes ((:rewrite)))

    Theorem: vl-modulelist-split-of-revappend

    (defthm vl-modulelist-split-of-revappend
  (equal (vl-modulelist-split (revappend acl2::x acl2::y))
         (revappend (vl-modulelist-split acl2::x)
                    (vl-modulelist-split acl2::y)))
  :rule-classes ((:rewrite)))

    Theorem: nthcdr-of-vl-modulelist-split

    (defthm nthcdr-of-vl-modulelist-split
  (equal (nthcdr acl2::n (vl-modulelist-split acl2::x))
         (vl-modulelist-split (nthcdr acl2::n acl2::x)))
  :rule-classes ((:rewrite)))

    Theorem: nth-of-vl-modulelist-split

    (defthm nth-of-vl-modulelist-split
  (equal (nth acl2::n (vl-modulelist-split acl2::x))
         (and (< (nfix acl2::n) (len acl2::x))
              (vl-module-split (nth acl2::n acl2::x))))
  :rule-classes ((:rewrite)))

    Theorem: vl-modulelist-split-nrev-removal

    (defthm vl-modulelist-split-nrev-removal
  (equal (vl-modulelist-split-nrev acl2::x nrev)
         (append nrev (vl-modulelist-split acl2::x)))
  :rule-classes ((:rewrite)))

    Theorem: vl-modulelist-split-exec-removal

    (defthm vl-modulelist-split-exec-removal
  (equal (vl-modulelist-split-exec acl2::x acl2::acc)
         (revappend (vl-modulelist-split acl2::x)
                    acl2::acc))
  :rule-classes ((:rewrite)))

    Theorem: vl-modulelist-split-of-take

    (defthm vl-modulelist-split-of-take
  (implies (<= (nfix acl2::n) (len acl2::x))
           (equal (vl-modulelist-split (take acl2::n acl2::x))
                  (take acl2::n (vl-modulelist-split acl2::x))))
  :rule-classes ((:rewrite)))

    Theorem: set-equiv-congruence-over-vl-modulelist-split

    (defthm set-equiv-congruence-over-vl-modulelist-split
  (implies (set-equiv acl2::x acl2::y)
           (set-equiv (vl-modulelist-split acl2::x)
                      (vl-modulelist-split acl2::y)))
  :rule-classes ((:congruence)))

    Theorem: subsetp-of-vl-modulelist-split-when-subsetp

    (defthm subsetp-of-vl-modulelist-split-when-subsetp
  (implies (subsetp acl2::x acl2::y)
           (subsetp (vl-modulelist-split acl2::x)
                    (vl-modulelist-split acl2::y)))
  :rule-classes ((:rewrite)))

    Theorem: member-of-vl-module-split-in-vl-modulelist-split

    (defthm member-of-vl-module-split-in-vl-modulelist-split
  (implies (member acl2::k acl2::x)
           (member (vl-module-split acl2::k)
                   (vl-modulelist-split acl2::x)))
  :rule-classes ((:rewrite)))

    Theorem: vl-modulelist-split-of-rev

    (defthm vl-modulelist-split-of-rev
  (equal (vl-modulelist-split (rev acl2::x))
         (rev (vl-modulelist-split acl2::x)))
  :rule-classes ((:rewrite)))

    Theorem: vl-modulelist-split-of-list-fix

    (defthm vl-modulelist-split-of-list-fix
  (equal (vl-modulelist-split (list-fix acl2::x))
         (vl-modulelist-split acl2::x))
  :rule-classes ((:rewrite)))

    Theorem: vl-modulelist-split-of-append

    (defthm vl-modulelist-split-of-append
  (equal (vl-modulelist-split (append acl2::a acl2::b))
         (append (vl-modulelist-split acl2::a)
                 (vl-modulelist-split acl2::b)))
  :rule-classes ((:rewrite)))

    Theorem: cdr-of-vl-modulelist-split

    (defthm cdr-of-vl-modulelist-split
  (equal (cdr (vl-modulelist-split acl2::x))
         (vl-modulelist-split (cdr acl2::x)))
  :rule-classes ((:rewrite)))

    Theorem: car-of-vl-modulelist-split

    (defthm car-of-vl-modulelist-split
  (equal (car (vl-modulelist-split acl2::x))
         (and (consp acl2::x)
              (vl-module-split (car acl2::x))))
  :rule-classes ((:rewrite)))

    Theorem: vl-modulelist-split-under-iff

    (defthm vl-modulelist-split-under-iff
  (iff (vl-modulelist-split acl2::x)
       (consp acl2::x))
  :rule-classes ((:rewrite)))

    Theorem: consp-of-vl-modulelist-split

    (defthm consp-of-vl-modulelist-split
  (equal (consp (vl-modulelist-split acl2::x))
         (consp acl2::x))
  :rule-classes ((:rewrite)))

    Theorem: len-of-vl-modulelist-split

    (defthm len-of-vl-modulelist-split
  (equal (len (vl-modulelist-split acl2::x))
         (len acl2::x))
  :rule-classes ((:rewrite)))

    Theorem: true-listp-of-vl-modulelist-split

    (defthm true-listp-of-vl-modulelist-split
  (true-listp (vl-modulelist-split acl2::x))
  :rule-classes :type-prescription)

    Theorem: vl-modulelist-split-when-not-consp

    (defthm vl-modulelist-split-when-not-consp
  (implies (not (consp acl2::x))
           (equal (vl-modulelist-split acl2::x)
                  nil))
  :rule-classes ((:rewrite)))

    Theorem: vl-modulelist-split-of-cons

    (defthm vl-modulelist-split-of-cons
  (equal (vl-modulelist-split (cons acl2::a acl2::b))
         (cons (vl-module-split acl2::a)
               (vl-modulelist-split acl2::b)))
  :rule-classes ((:rewrite)))

    Theorem: vl-modulelist-p-of-vl-modulelist-split

    (defthm vl-modulelist-p-of-vl-modulelist-split
  (implies (force (vl-modulelist-p x))
           (vl-modulelist-p (vl-modulelist-split x))))