(cst-asm-statement-conc abnf::cst) → abnf::cstss
Function:
(defun cst-asm-statement-conc (abnf::cst) (declare (xargs :guard (abnf::treep abnf::cst))) (declare (xargs :guard (cst-matchp abnf::cst "asm-statement"))) (let ((__function__ 'cst-asm-statement-conc)) (declare (ignorable __function__)) (abnf::tree-nonleaf->branches abnf::cst)))
Theorem:
(defthm tree-list-listp-of-cst-asm-statement-conc (b* ((abnf::cstss (cst-asm-statement-conc abnf::cst))) (abnf::tree-list-listp abnf::cstss)) :rule-classes :rewrite)
Theorem:
(defthm cst-asm-statement-conc-match (implies (cst-matchp abnf::cst "asm-statement") (b* ((abnf::cstss (cst-asm-statement-conc abnf::cst))) (cst-list-list-conc-matchp abnf::cstss "asm-keyword *asm-qualifier \"(\" 1*string-literal [ \":\" asm-output-operands [ \":\" asm-input-operands [ \":\" asm-clobbers [ \":\" asm-goto-labels ] ] ] ] \")\" \";\""))) :rule-classes :rewrite)
Theorem:
(defthm cst-asm-statement-conc-of-tree-fix-cst (equal (cst-asm-statement-conc (abnf::tree-fix abnf::cst)) (cst-asm-statement-conc abnf::cst)))
Theorem:
(defthm cst-asm-statement-conc-tree-equiv-congruence-on-cst (implies (abnf::tree-equiv abnf::cst cst-equiv) (equal (cst-asm-statement-conc abnf::cst) (cst-asm-statement-conc cst-equiv))) :rule-classes :congruence)