Get the significand field from a dec-core-fconst-int.
(dec-core-fconst-int->significand x) → significand
This is an ordinary field accessor created by fty::defprod.
Function:
(defun dec-core-fconst-int->significand$inline (x) (declare (xargs :guard (dec-core-fconstp x))) (declare (xargs :guard (equal (dec-core-fconst-kind x) :int))) (let ((__function__ 'dec-core-fconst-int->significand)) (declare (ignorable __function__)) (mbe :logic (b* ((x (and (equal (dec-core-fconst-kind x) :int) x))) (str::dec-digit-char-list-fix (std::da-nth 0 (cdr x)))) :exec (std::da-nth 0 (cdr x)))))
Theorem:
(defthm dec-digit-char-listp-of-dec-core-fconst-int->significand (b* ((significand (dec-core-fconst-int->significand$inline x))) (dec-digit-char-listp significand)) :rule-classes :rewrite)
Theorem:
(defthm dec-core-fconst-int->significand$inline-of-dec-core-fconst-fix-x (equal (dec-core-fconst-int->significand$inline (dec-core-fconst-fix x)) (dec-core-fconst-int->significand$inline x)))
Theorem:
(defthm dec-core-fconst-int->significand$inline-dec-core-fconst-equiv-congruence-on-x (implies (dec-core-fconst-equiv x x-equiv) (equal (dec-core-fconst-int->significand$inline x) (dec-core-fconst-int->significand$inline x-equiv))) :rule-classes :congruence)
Theorem:
(defthm dec-core-fconst-int->significand-when-wrong-kind (implies (not (equal (dec-core-fconst-kind x) :int)) (equal (dec-core-fconst-int->significand x) (str::dec-digit-char-list-fix nil))))