While trying to prove some equality in ssreflect, I got to the following:

WTS: forall (a b: ~ false), a = b

which is basically

WTS: forall (a b: false <> true), a = b.

Knowing that the following holds constructively,

bool_irrelevance (b: bool): (x y: b), x = y

I got to wonder if it is possible to prove WTS constructively. Since the decidable equality required for is given as {x = y} + {x <> y}, I think it might be provable without axioms. Is this provable?

Also, is it possible to prove proof irrelevance for the prop False -> False?

Note, I am indeed fine with using proof irrelevance axiom. Simply asking if there is a way to avoid using the axiom.

  • Isn't false <> true an abbreviation for false = true -> False ? If it is the case you will probably need function extensionality to be able to say anything about the equality of a and b. Sep 8 at 13:53
  • @kyodralliam yes, it is. Is function extensionality strictly needed to talk about it though? Also, if it is indeed needed, can I prove it only with function extensionality?
    – Abastro
    Sep 8 at 13:55
  • Function extensionality is generally needed whenever you want to say something about the equality of arbitrary functions. And yes you can prove that for any type A and proofs a,b : A -> False then a = b with function extensionality. Sep 8 at 13:58
  • I see, thank you! I want guarantee on whether function extensionality is needed though. On a side note, is function extensionality considered weaker compared to proof irrelevance?
    – Abastro
    Sep 8 at 14:17
  • 1
    To see that it is necessary, you can take a model of Coq invalidating function extensionality and check that there exists two terms of your type that are distinct (e.g. take the first $$- \times \mathbb{B}$$ model of this paper). In general function extensionality and proof irrelevance are probably incomparable, but if you restrict function extensionality to implication between propositions, then it is trivially implied by proof-irrelevance. Sep 8 at 15:02

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