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(************************************************************************)
(* v * The Coq Proof Assistant / The Coq Development Team *)
(* <O___,, * INRIA - CNRS - LIX - LRI - PPS - Copyright 1999-2017 *)
(* \VV/ **************************************************************)
(* // * This file is distributed under the terms of the *)
(* * GNU Lesser General Public License Version 2.1 *)
(************************************************************************)
(** * A typeclass to ease the handling of decidable properties. *)
(** A proposition is decidable whenever it is reflected by a boolean. *)
Class Decidable (P : Prop) := {
Decidable_witness : bool;
Decidable_spec : Decidable_witness = true <-> P
}.
(** Alternative ways of specifying the reflection property. *)
Lemma Decidable_sound : forall P (H : Decidable P),
Decidable_witness = true -> P.
Proof.
intros P H Hp; apply -> Decidable_spec; assumption.
Qed.
Lemma Decidable_complete : forall P (H : Decidable P),
P -> Decidable_witness = true.
Proof.
intros P H Hp; apply <- Decidable_spec; assumption.
Qed.
Lemma Decidable_sound_alt : forall P (H : Decidable P),
~ P -> Decidable_witness = false.
Proof.
intros P [wit spec] Hd; simpl; destruct wit; tauto.
Qed.
Lemma Decidable_complete_alt : forall P (H : Decidable P),
Decidable_witness = false -> ~ P.
Proof.
intros P [wit spec] Hd Hc; simpl in *; intuition congruence.
Qed.
(** The generic function that should be used to program, together with some
useful tactics. *)
Definition decide P {H : Decidable P} := Decidable_witness (Decidable:=H).
Ltac _decide_ P H :=
let b := fresh "b" in
set (b := decide P) in *;
assert (H : decide P = b) by reflexivity;
clearbody b;
destruct b; [apply Decidable_sound in H|apply Decidable_complete_alt in H].
Tactic Notation "decide" constr(P) "as" ident(H) :=
_decide_ P H.
Tactic Notation "decide" constr(P) :=
let H := fresh "H" in _decide_ P H.
(** Some usual instances. *)
Require Import Bool Arith ZArith.
Program Instance Decidable_eq_bool : forall (x y : bool), Decidable (eq x y) := {
Decidable_witness := Bool.eqb x y
}.
Next Obligation.
apply eqb_true_iff.
Qed.
Program Instance Decidable_eq_nat : forall (x y : nat), Decidable (eq x y) := {
Decidable_witness := Nat.eqb x y
}.
Next Obligation.
apply Nat.eqb_eq.
Qed.
Program Instance Decidable_le_nat : forall (x y : nat), Decidable (x <= y) := {
Decidable_witness := Nat.leb x y
}.
Next Obligation.
apply Nat.leb_le.
Qed.
Program Instance Decidable_eq_Z : forall (x y : Z), Decidable (eq x y) := {
Decidable_witness := Z.eqb x y
}.
Next Obligation.
apply Z.eqb_eq.
Qed.
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