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RLP decoding of a scalar.
(rlp-decode-scalar encoding) → (mv error? scalar)
This is analogous to rlp-decode-tree.
If the returned error flag is
Analogously to rlp-decode-bytes,
we use the injectivity of rlp-encode-bytes
to prove a relationship between
Function:
(defun rlp-decode-scalar (encoding) (declare (xargs :guard (byte-listp encoding))) (b* ((encoding (byte-list-fix encoding))) (if (rlp-scalar-encoding-p encoding) (mv nil (rlp-scalar-encoding-witness encoding)) (mv t 0))))
Theorem:
(defthm booleanp-of-rlp-decode-scalar.error? (b* (((mv ?error? ?scalar) (rlp-decode-scalar encoding))) (booleanp error?)) :rule-classes :rewrite)
Theorem:
(defthm natp-of-rlp-decode-scalar.scalar (b* (((mv ?error? ?scalar) (rlp-decode-scalar encoding))) (natp scalar)) :rule-classes :rewrite)
Theorem:
(defthm rlp-encode-scalar-of-rlp-decode-scalar (implies (rlp-scalar-encoding-p encoding) (b* (((mv d-error? d-scalar) (rlp-decode-scalar encoding)) ((mv e-error? e-encoding) (rlp-encode-scalar d-scalar))) (and (not d-error?) (not e-error?) (equal e-encoding (byte-list-fix encoding))))))
Theorem:
(defthm rlp-decode-scalar-of-rlp-encode-scalar (b* (((mv e-error? encoding) (rlp-encode-scalar scalar)) ((mv d-error? scalar1) (rlp-decode-scalar encoding))) (implies (not e-error?) (and (not d-error?) (equal scalar1 (nfix scalar))))))
Theorem:
(defthm rlp-bytes-encoding-witness-as-rlp-scalar-encoding-witness (implies (rlp-scalar-encoding-p encoding) (equal (rlp-bytes-encoding-witness encoding) (nat=>bebytes* (rlp-scalar-encoding-witness encoding)))))
Theorem:
(defthm rlp-scalar-encoding-witness-as-rlp-bytes-encoding-witness (implies (rlp-scalar-encoding-p encoding) (equal (rlp-scalar-encoding-witness encoding) (bebytes=>nat (rlp-bytes-encoding-witness encoding)))))
Theorem:
(defthm rlp-decode-scalar-alt-def (equal (rlp-decode-scalar encoding) (b* (((mv error? bytes) (rlp-decode-bytes encoding)) ((when error?) (mv t 0)) ((unless (equal (trim-bendian* bytes) bytes)) (mv t 0)) (scalar (bebytes=>nat bytes))) (mv nil scalar))))
Theorem:
(defthm rlp-decode-scalar-of-byte-list-fix-encoding (equal (rlp-decode-scalar (byte-list-fix encoding)) (rlp-decode-scalar encoding)))
Theorem:
(defthm rlp-decode-scalar-byte-list-equiv-congruence-on-encoding (implies (byte-list-equiv encoding encoding-equiv) (equal (rlp-decode-scalar encoding) (rlp-decode-scalar encoding-equiv))) :rule-classes :congruence)