I want to prove or falsify forall (P Q : Prop), (P -> Q) -> (Q -> P) -> P = Q.
in Coq. Here is my approach.
Inductive True2 : Prop :=
| One : True2
| Two : True2.
Lemma True_has_one : forall (t0 t1 : True), t0 = t1.
Proof.
intros.
destruct t0. destruct t1.
reflexivity.
Qed.
Lemma not_True2_has_one : (forall (t0 t1 : True2), t0 = t1) -> False.
Proof.
intros.
specialize (H One Two).
inversion H.
But, inversion H
does nothing. I think maybe it's because the coq's proof independence (I'm not a native English speaker, and I don't know the exact words, please forgive my ignorance), and coq makes it impossible to prove One = Two -> False. But if so why has to coq eliminate the content of a proof?
Without the above proposition, I can't prove the followings or their negations.
Lemma True_neq_True2 : True = True2 -> False.
Theorem iff_eq : forall (P Q : Prop), (P -> Q) -> (Q -> P) -> P = Q.
So my question is:
- How to or is that possible to prove or falsify
forall (P Q : Prop),
(P -> Q) -> (Q -> P) -> P = Q.
in Coq?
- Why
inversion H
does nothing; does it's because the coq's proof independence, and if so, why does Coq waste energy in doing this.
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