Does TLA+ have an xor operator defined as part of the language itself, or do I have to define my own?


Under the assumption that A \in BOOLEAN /\ B \in BOOLEAN, what is known in propositional logic as "XOR" is inequality:

A # B

which under the same assumption is equivalent to ~ (A <=> B). When A, B take non-Boolean values, these two formulas are not necessarily equivalent. The following axiom could describe the operator <=>

        /\ A \in BOOLEAN
        /\ B \in BOOLEAN
        (A <=> B)  =  (A = B)

For non-Boolean values of A and B, the value of A <=> B is not specified. In the moderate interpretation of Boolean operators it is unspecified whether A <=> B takes non-Boolean values for non-Boolean A or B. In the liberal interpretation of Boolean operators, \A A, B: (A <=> B) \in BOOLEAN, as described in the TLA Version 2: A Preliminary Guide.

See also page 10 (which defines the Boolean operators for Boolean values of the arguments) and Sec. 16.1.3 of the TLA+ book. The formula

(A \/ B) /\ ~ (A /\ B)

is meaningful also for non-Boolean values of the identifiers A and B (TLA+ is untyped). So

(15 \/ "a") /\ ~ (15 /\ "a")

is a possible value. I do not know if TLA+ specifies whether this formula has the same value as

15 # "a"

See also the comment on Appendix A, Page 201, line 10 of Practical TLA+.

  • 1
    Neat! I never considered that # is equivalent to xor over the set of Boolean values, but of course that's the case.
    – ahelwer
    Oct 13 '17 at 5:10
  • 1
    One (small) thing to keep in mind is that if A and B are not booleans but are the same type, A /= B is valid TLC but (A \/ B) /\ ~(A /\ B) is not.
    – Hovercouch
    Oct 13 '17 at 19:24

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