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is there anything like the tactic simpl for Program Fixpoints?
In particular, how can one proof the following trivial statement?
Program Fixpoint bla (n:nat) {measure n} :=
match n with
| 0 => 0
| S n' => S (bla n')
end.
Lemma obvious: forall n, bla n = n.
induction n. reflexivity.
(* I'm stuck here. For a normal fixpoint, I could for instance use
simpl. rewrite IHn. reflexivity. But here, I couldn't find a tactic
transforming bla (S n) to S (bla n).*)
Obviously, there is no Program Fixpoint necessary for this toy example, but I'm facing the same problem in a more complicated setting where I need to prove termination of the Program Fixpoint manually.
I'm not used to using
Programso there's probably a better solution but this is what I came up with by unfoldingbla, seeing that it was internally defined usingFix_suband looking at the theorems about that function by usingSearchAbout Fix_sub.In your real-life example, you'll probably want to introduce reduction lemmas so that you don't have to do the same work every time. E.g.:
This way, next time you have a
bla (S _), you can simplyrewrite blaS_red.