I'm trying to prove that inverting a binary tree twice produces the same binary tree.

So I have written the following inductive type:

```
Inductive tree : Type :=
| Leaf (x : Type)
| Node (t1 : tree) (t2 : tree).
```

And here's the inversion function:

```
Fixpoint invertTree (t : tree) :=
match t with
| Leaf x => Leaf x
| Node l r => Node (invertTree r) (invertTree l)
end.
```

The theorem is pretty simple:

```
Theorem involution_of_invert : forall t : tree,
(invertTree (invertTree t)) = t.
```

The base case is pretty easy to prove, we start with a proof by induction and just compute -> reflexivity. I'm having a hard time understanding the induction step. Here's as far as I got:

```
Proof.
induction t.
compute.
reflexivity.
induction t1, t2.
compute.
reflexivity.
```

And my remaining goals:

```
3 subgoals (ID 57)
x : Type
t2_1, t2_2 : tree
IHt1 : invertTree (invertTree (Leaf x)) = Leaf x
IHt2 : invertTree (invertTree (Node t2_1 t2_2)) = Node t2_1 t2_2
============================
invertTree (invertTree (Node (Leaf x) (Node t2_1 t2_2))) =
Node (Leaf x) (Node t2_1 t2_2)
subgoal 2 (ID 74) is:
invertTree (invertTree (Node (Node t1_1 t1_2) (Leaf x))) =
Node (Node t1_1 t1_2) (Leaf x)
subgoal 3 (ID 81) is:
invertTree (invertTree (Node (Node t1_1 t1_2) (Node t2_1 t2_2))) =
Node (Node t1_1 t1_2) (Node t2_1 t2_2)
```

Would be glad if any hint could be provided. I'm pretty new to Coq (as should be pretty clear from the question heh).

Thanks