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Semantics of the
We calculate the effective address.
We read an unsigned 16-bit integer from the effective address,
and sign-extend it to
Function:
(defun exec-lh (rd rs1 imm stat feat) (declare (xargs :guard (and (ubyte5p rd) (ubyte5p rs1) (ubyte12p imm) (statp stat) (featp feat)))) (declare (xargs :guard (stat-validp stat feat))) (let ((__function__ 'exec-lh)) (declare (ignorable __function__)) (b* ((addr (eff-addr rs1 imm stat feat)) (result (loghead (feat->xlen feat) (logext 16 (read-memory-unsigned16 addr stat feat)))) (stat (write-xreg (ubyte5-fix rd) result stat feat)) (stat (inc4-pc stat feat))) stat)))
Theorem:
(defthm statp-of-exec-lh (b* ((new-stat (exec-lh rd rs1 imm stat feat))) (statp new-stat)) :rule-classes :rewrite)
Theorem:
(defthm exec-lh-of-ubyte5-fix-rd (equal (exec-lh (ubyte5-fix rd) rs1 imm stat feat) (exec-lh rd rs1 imm stat feat)))
Theorem:
(defthm exec-lh-ubyte5-equiv-congruence-on-rd (implies (ubyte5-equiv rd rd-equiv) (equal (exec-lh rd rs1 imm stat feat) (exec-lh rd-equiv rs1 imm stat feat))) :rule-classes :congruence)
Theorem:
(defthm exec-lh-of-ubyte5-fix-rs1 (equal (exec-lh rd (ubyte5-fix rs1) imm stat feat) (exec-lh rd rs1 imm stat feat)))
Theorem:
(defthm exec-lh-ubyte5-equiv-congruence-on-rs1 (implies (ubyte5-equiv rs1 rs1-equiv) (equal (exec-lh rd rs1 imm stat feat) (exec-lh rd rs1-equiv imm stat feat))) :rule-classes :congruence)
Theorem:
(defthm exec-lh-of-ubyte12-fix-imm (equal (exec-lh rd rs1 (ubyte12-fix imm) stat feat) (exec-lh rd rs1 imm stat feat)))
Theorem:
(defthm exec-lh-ubyte12-equiv-congruence-on-imm (implies (acl2::ubyte12-equiv imm imm-equiv) (equal (exec-lh rd rs1 imm stat feat) (exec-lh rd rs1 imm-equiv stat feat))) :rule-classes :congruence)
Theorem:
(defthm exec-lh-of-stat-fix-stat (equal (exec-lh rd rs1 imm (stat-fix stat) feat) (exec-lh rd rs1 imm stat feat)))
Theorem:
(defthm exec-lh-stat-equiv-congruence-on-stat (implies (stat-equiv stat stat-equiv) (equal (exec-lh rd rs1 imm stat feat) (exec-lh rd rs1 imm stat-equiv feat))) :rule-classes :congruence)
Theorem:
(defthm exec-lh-of-feat-fix-feat (equal (exec-lh rd rs1 imm stat (feat-fix feat)) (exec-lh rd rs1 imm stat feat)))
Theorem:
(defthm exec-lh-feat-equiv-congruence-on-feat (implies (feat-equiv feat feat-equiv) (equal (exec-lh rd rs1 imm stat feat) (exec-lh rd rs1 imm stat feat-equiv))) :rule-classes :congruence)