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    • Parser

    Parse-constraint

    Parse a constraint.

    Signature
    (parse-constraint token input) 
  → 
(mv tree next-token rest-input)
    Arguments
    token — Guard (abnf::tree-optionp token).
    input — Guard (abnf::tree-listp input).
    Returns
    tree — Type (abnf::tree-resultp tree).
    next-token — Type (abnf::tree-optionp next-token).
    rest-input — Type (abnf::tree-listp rest-input).

    Definitions and Theorems

    Function: parse-constraint

    (defun parse-constraint (token input)
  (declare (xargs :guard (and (abnf::tree-optionp token)
                              (abnf::tree-listp input))))
  (let ((__function__ 'parse-constraint))
    (declare (ignorable __function__))
    (b* (((mv tree token0 input0)
          (parse-equality-constraint token input))
         ((when (not (reserrp tree)))
          (mv (abnf-tree-wrap tree "constraint")
              token0 input0))
         ((pok tree)
          (parse-relation-constraint token input)))
      (mv (abnf-tree-wrap tree "constraint")
          token input))))

    Theorem: tree-resultp-of-parse-constraint.tree

    (defthm tree-resultp-of-parse-constraint.tree
  (b* (((mv ?tree ?next-token ?rest-input)
        (parse-constraint token input)))
    (abnf::tree-resultp tree))
  :rule-classes :rewrite)

    Theorem: tree-optionp-of-parse-constraint.next-token

    (defthm tree-optionp-of-parse-constraint.next-token
  (b* (((mv ?tree ?next-token ?rest-input)
        (parse-constraint token input)))
    (abnf::tree-optionp next-token))
  :rule-classes :rewrite)

    Theorem: tree-listp-of-parse-constraint.rest-input

    (defthm tree-listp-of-parse-constraint.rest-input
  (b* (((mv ?tree ?next-token ?rest-input)
        (parse-constraint token input)))
    (abnf::tree-listp rest-input))
  :rule-classes :rewrite)

    Theorem: parsize-of-parse-constraint-<=

    (defthm parsize-of-parse-constraint-<=
  (b* (((mv ?tree ?next-token ?rest-input)
        (parse-constraint token input)))
    (<= (parsize next-token rest-input)
        (parsize token input)))
  :rule-classes :linear)

    Theorem: parsize-of-parse-constraint-<

    (defthm parsize-of-parse-constraint-<
  (b* (((mv ?tree ?next-token ?rest-input)
        (parse-constraint token input)))
    (implies (not (reserrp tree))
             (< (parsize next-token rest-input)
                (parsize token input))))
  :rule-classes :linear)

    Theorem: parse-constraint-of-tree-option-fix-token

    (defthm parse-constraint-of-tree-option-fix-token
  (equal (parse-constraint (abnf::tree-option-fix token)
                           input)
         (parse-constraint token input)))

    Theorem: parse-constraint-tree-option-equiv-congruence-on-token

    (defthm parse-constraint-tree-option-equiv-congruence-on-token
  (implies (abnf::tree-option-equiv token token-equiv)
           (equal (parse-constraint token input)
                  (parse-constraint token-equiv input)))
  :rule-classes :congruence)

    Theorem: parse-constraint-of-tree-list-fix-input

    (defthm parse-constraint-of-tree-list-fix-input
  (equal (parse-constraint token (abnf::tree-list-fix input))
         (parse-constraint token input)))

    Theorem: parse-constraint-tree-list-equiv-congruence-on-input

    (defthm parse-constraint-tree-list-equiv-congruence-on-input
  (implies (abnf::tree-list-equiv input input-equiv)
           (equal (parse-constraint token input)
                  (parse-constraint token input-equiv)))
  :rule-classes :congruence)