# How do I reason about conditionals in Coq?

I'm working through the ListSet module from the Coq standard library. I'm unsure how to reason about conditionals in a proof. For instance, I am having trouble with the following proof. Definitions are provided for context.

Fixpoint set_mem (x : A) (xs : set) : bool :=
match xs with
| nil       => false
| cons y ys =>
match Aeq_dec x y with
| left  _ => true
| right _ => set_mem x ys
end
end.

Definition set_In : A -> set -> Prop := In (A := A).

Lemma set_mem_correct1 : forall (x : A) (xs : set),
set_mem x xs = true -> set_In x xs.
Proof. intros. induction xs.
discriminate.
simpl; destruct Aeq_dec with a x.
intuition.
simpl in H.

The current proof state includes the inr of Aeq_dec as a hypothesis. I have discarded the base case of induction and the inductive case where the inl of Aeq_dec is true.

A : Type
Aeq_dec : forall x y : A, {x = y} + {x <> y}
x : A
a : A
xs : list A
H : (if Aeq_dec x a then true else set_mem x xs) = true
IHxs : set_mem x xs = true -> set_In x xs
n : a <> x
============================
a = x \/ set_In x xs

The only way for H to be true if a <> x is if set_mem xs is true. I should be able to apply the conditional in H to a <> x in order to obtain set_mem xs. However, I don't understand how to do this. How do I deal with, or decompose, or apply conditionals?

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