# How to create a custom Ltac to recursively destruct conjunctions?

I quite often have to deal with complex conjunctions such as `(Q /\ W) /\ (E /\ R)`. I am quite sick of destructing them manually and guessing how to arrange square brackets so I don't accidentally remove some important chunk. I would like to therefore write a custom `Ltac` that would nicely break such monsters down, exactly what `repeat split` does to the goal:

``````Theorem test : forall {Q W E R : Prop}, (Q /\ W) /\ (E /\ R) -> True.
Proof.
intros Q W E R.
intro H.
smart_destruct H.
(*
HQ : Q
HW : W
HE : E
HR : R
------------------
True
*)
``````

What I have so far is

``````Ltac smart_destruct H
:= match H with
| _ /\ _ => destruct H as [?L ?R]; smart_destruct L; smart_destruct R
| _ => H
end.
``````

But it does not work because

``````Error: Expression does not evaluate to a tactic.
``````

If there exists a tactic that does exactly what I am trying to craft, then I would be happy to know, but most importantly I would like to know to write a custom `Ltac` for that. What am I doing wrong?

• FWIW, the typical way of dealing with this problem is to avoid conjunctions as much as possible. I mean, use `A -> (B -> C)` instead of `A /\ B -> C` (they are equivalent). Then there is no need for a complex intro-pattern. Mar 15 at 18:12
• Well, it's unavoidable if I have conjunctions in the conclusion of my inductive hypothesis Mar 16 at 14:42

The error you are getting is telling you that a branch in your tactic doesn't return a tactic. In this case, it is the second branch in the match

``````| _ => H
``````

Your tactic shouldn't return a hypothesis but instructions on how to manipulate the goal. So what you want here is to return the `idtac` tactic which is a tactic that does nothing to the goal.

The second problem with the tactic is that you match on the hypothesis rather than the type of the hypothesis. The tactic below should do what you want.

``````Ltac smart_destruct H :=
match type of H with
| _ /\ _ =>
let L := fresh "L" in
let R := fresh "R" in
destruct H as [L R]; smart_destruct L; smart_destruct R
| _ => idtac
end.
``````

Adding on the answer of abc, here is a variant which names the hypothesis after the variables - which is a bit intricate because you have to distinguish the case if it is variable or a complex term and in Ltac1 one can't do this inside of the let (afaik)

``````Ltac smart_destruct H
:= match type of H with
| ?l /\ ?r =>
tryif is_var l then (
let HL := fresh "H" l in
tryif is_var r then (
let HR := fresh "H" r in
destruct H as [HL HR]; smart_destruct HL; smart_destruct HR
)
else (
destruct H as [HL ?HtmpR]; smart_destruct HL; smart_destruct HtmpR
)
) else (
tryif is_var r then (
let HR := fresh "H" r in
destruct H as [?HtmpL HR]; smart_destruct HtmpL; smart_destruct HR
)
else (
destruct H as [?HtmpL ?HtmpR]; smart_destruct HtmpL; smart_destruct HtmpR
)
)
| _ => idtac
end.
``````