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I am trying to understand a proof in coq. I wrote it long ago during a course but now I'm blocked by the absurd command. Here is the proof :

Theorem Thm_2 : (~psi -> ~phi) -> (phi -> psi).
Proof.
intro.
intro.
cut (psi \/ ~psi).
intro.
elim H1.
intro.
exact H2.
intro.
absurd phi.
cut (~psi).
exact H.
exact H2.
exact H0.
apply classic.
Qed.

When I use the absurd phi tactic, my current goal is psi. And the absurd command transforms it in two goals : ~ phi and phi. My problem is I can't figure nor remember the logic behind this step...

Thank you for your help ! (it seems I can't add a Hello at the beginning of my message... sorry)

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up vote 3 down vote accepted
  • If you can prove phi and ~ phi, then you can prove False (remember, ~ phi := phi -> False)
  • If you can prove False, then you can prove anything, including your goal at that point

So absurd phi applies False elimination, and have you prove False by means of proving both phi and ~ phi.

share|improve this answer
    
Thank you for your answer Ptival! but I still don't understand completly. If I prove false with the hypothesis of theorem my doesn't it means that it is wrong ? Thanks for your help ! – Emarco Dec 8 '13 at 20:53
1  
Most of the time you use absurd in only on sub-proof of a theorem, to discard a "impossible" branch. For example with euclidean division: forall a b:nat, b <> 0 -> exists q:nat, exists r:nat, a = b * q + r you might use absurd whenever your consider the case b = 0 (this example is too simple in practice, but you get the main idea). – Vinz Dec 9 '13 at 8:28
    
Ok, thanks Vinz – Emarco Dec 12 '13 at 19:49

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