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    • Semantics32

    Exec32-xor

    Semantics of the XOR instruction [ISA:2.4.2].

    Signature
    (exec32-xor rd rs1 rs2 stat) → new-stat
    Arguments
    rd — Guard (ubyte5p rd).
    rs1 — Guard (ubyte5p rs1).
    rs2 — Guard (ubyte5p rs2).
    stat — Guard (state32p stat).
    Returns
    new-stat — Type (state32p new-stat).

    We read two unsigned 32-bit integers from rs1 and rs2. We perform a bitwise exclusive `or' of the two unsigned 32-bit integers. We write the result to rd. We increment the program counter.

    Definitions and Theorems

    Function: exec32-xor

    (defun exec32-xor (rd rs1 rs2 stat)
  (declare (xargs :guard (and (ubyte5p rd)
                              (ubyte5p rs1)
                              (ubyte5p rs2)
                              (state32p stat))))
  (let ((__function__ 'exec32-xor))
    (declare (ignorable __function__))
    (b* ((rs1-operand (read32-xreg-unsigned rs1 stat))
         (rs2-operand (read32-xreg-unsigned rs2 stat))
         (result (logxor rs1-operand rs2-operand))
         (stat (write32-xreg rd result stat))
         (stat (inc32-pc stat)))
      stat)))

    Theorem: state32p-of-exec32-xor

    (defthm state32p-of-exec32-xor
  (b* ((new-stat (exec32-xor rd rs1 rs2 stat)))
    (state32p new-stat))
  :rule-classes :rewrite)

    Theorem: exec32-xor-of-ubyte5-fix-rd

    (defthm exec32-xor-of-ubyte5-fix-rd
  (equal (exec32-xor (ubyte5-fix rd)
                     rs1 rs2 stat)
         (exec32-xor rd rs1 rs2 stat)))

    Theorem: exec32-xor-ubyte5-equiv-congruence-on-rd

    (defthm exec32-xor-ubyte5-equiv-congruence-on-rd
  (implies (ubyte5-equiv rd rd-equiv)
           (equal (exec32-xor rd rs1 rs2 stat)
                  (exec32-xor rd-equiv rs1 rs2 stat)))
  :rule-classes :congruence)

    Theorem: exec32-xor-of-ubyte5-fix-rs1

    (defthm exec32-xor-of-ubyte5-fix-rs1
  (equal (exec32-xor rd (ubyte5-fix rs1)
                     rs2 stat)
         (exec32-xor rd rs1 rs2 stat)))

    Theorem: exec32-xor-ubyte5-equiv-congruence-on-rs1

    (defthm exec32-xor-ubyte5-equiv-congruence-on-rs1
  (implies (ubyte5-equiv rs1 rs1-equiv)
           (equal (exec32-xor rd rs1 rs2 stat)
                  (exec32-xor rd rs1-equiv rs2 stat)))
  :rule-classes :congruence)

    Theorem: exec32-xor-of-ubyte5-fix-rs2

    (defthm exec32-xor-of-ubyte5-fix-rs2
  (equal (exec32-xor rd rs1 (ubyte5-fix rs2)
                     stat)
         (exec32-xor rd rs1 rs2 stat)))

    Theorem: exec32-xor-ubyte5-equiv-congruence-on-rs2

    (defthm exec32-xor-ubyte5-equiv-congruence-on-rs2
  (implies (ubyte5-equiv rs2 rs2-equiv)
           (equal (exec32-xor rd rs1 rs2 stat)
                  (exec32-xor rd rs1 rs2-equiv stat)))
  :rule-classes :congruence)

    Theorem: exec32-xor-of-state32-fix-stat

    (defthm exec32-xor-of-state32-fix-stat
  (equal (exec32-xor rd rs1 rs2 (state32-fix stat))
         (exec32-xor rd rs1 rs2 stat)))

    Theorem: exec32-xor-state32-equiv-congruence-on-stat

    (defthm exec32-xor-state32-equiv-congruence-on-stat
  (implies (state32-equiv stat stat-equiv)
           (equal (exec32-xor rd rs1 rs2 stat)
                  (exec32-xor rd rs1 rs2 stat-equiv)))
  :rule-classes :congruence)