I'm trying to perform the following proof based on Finite Maps as defined in CoqExtLib. However, I'm having a problem where the instance of `RelDec`

showing up in the proof is different than the instance that I think is declared.

```
Require Import ExtLib.Data.Map.FMapAList.
Require ExtLib.Structures.Sets.
Module DSet := ExtLib.Structures.Sets.
Require ExtLib.Structures.Maps.
Module Map := ExtLib.Structures.Maps.
Require Import ExtLib.Data.Nat.
Require Import Coq.Lists.List.
Definition Map k v := alist k v.
Definition loc := nat.
Definition sigma : Type := (Map loc nat).
Lemma not_in_sigma : forall (l l' : loc) (e : nat) (s : sigma),
l <> l' ->
Map.lookup l ((l',e)::s) = Map.lookup l s.
intros. simpl. assert ( RelDec.rel_dec l l' = true -> l = l').
pose (ExtLib.Core.RelDec.rel_dec_correct l l') as i. destruct i.
(*i := RelDec.rel_dec_correct l l' : RelDec.rel_dec l l' = true <-> l >= l'*)
```

As you can see, I'm trying to use the fact that `rel_dec`

must evaluate to false if its two inputs are not equal. This seems to match the definition given in ExtLib.Data.Nat:

```
Global Instance RelDec_eq : RelDec (@eq nat) :=
{ rel_dec := EqNat.beq_nat }.
```

However, in the code I showed above, it's using `>=`

instead of `=`

as the relation that the finite map is parameterized on, so I can't apply the theorem `rel_dec_correct`

.

Why is this happening? How is the instance for RelDec being chosen? Is there something special I need to do when proving theorems about types qualified by typeclasses? How can I get a version of `rel_dec_correct`

that applies to equality, not greater-than?