# Proving if then else in Coq

I'm new at Coq and I'm trying to prove something pretty basic

Lemma eq_if_eq : forall a1 a2, (if beq_nat a1 a2 then a2 else a1) = a1.

I struggled through a solution posted below, but I think there must be a better way. Ideally, I'd like to cleanly case on `beq_nat a1 a2` while putting the case values in the list of hypothesis. Is there a tactic `t` such that using `t (beq_nat a1 a2)` yields two subcases, one where `beq_nat a1 a2 = true` and another where `beq_nat a1 a2 = false`? Obviously, `induction` is very close but it loses its history.

Here's the proof I struggled through:

``````Proof.
Hint Resolve beq_nat_refl.
Hint Resolve beq_nat_eq.
Hint Resolve beq_nat_true.
Hint Resolve beq_nat_false.
intros.
compare (beq_nat a1 a2) true.
intros. assert (a1 = a2). auto.
replace (beq_nat a1 a2) with true. auto.
intros. assert (a1 <> a2). apply beq_nat_false.
apply not_true_is_false. auto.
assert (beq_nat a1 a2 = false). apply not_true_is_false. auto.
replace (beq_nat a1 a2) with false. auto.
Qed.
``````
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Generally for this kind of things, I use the `eqn` variant of destruct. It would look like this:

``````destruct (beq_nat a1 a2) as []_eqn. (* Coq <= 8.3 *)

destruct (beq_nat a1 a2) as []eqn:? (* Coq >= 8.4 *)
``````

It will add the equality as a hypothesis. In the 8.4 variant, you can replace the question mark with a name to give to the hypothesis.

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It turns out the simple `remember` tactic was all I needed. Something along the lines of `remember (beq_nat a1 a2) as e; induction e; etc`.

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