bedrock.prelude.bool

(*
 * Copyright (C) BlueRock Security Inc. 2020-2024
 *
 * This software is distributed under the terms of the BedRock Open-Source License.
 * See the LICENSE-BedRock file in the repository root for details.
 *)

Require Export bedrock.prelude.base.

#[local] Set Printing Coercions.

#[global] Instance bool_compare : Compare bool := Bool.compare.

Infix "<=" := Bool.le : bool_scope.
Notation "(<=)" := Bool.le (only parsing) : bool_scope.

We can't readily use SSR's view lemmas due to Is_true vs is_true.

Lemma introT {P b} : reflect P b -> P -> b.
Proof. by destruct 1. Qed.

Lemma elimT {P b} : reflect P b -> b -> P.
Proof. by destruct 1. Qed.

This coercion enables the application of view lemmas to boolean expressions.
#[warning="-uniform-inheritance"]
Coercion elimT : reflect >-> Funclass.

Setoid rewriting along <->
Lemma rwP {P b} : reflect P b -> P <-> b.
Proof. case=>HP; cbn; by split. Qed.

Lemma boolP (b : bool) : b \/ ~~ b.
Proof. destruct b; auto. Qed.

Lemma negP {b : bool} : reflect (~ b) (~~ b).
Proof. destruct b; constructor; naive_solver. Qed.

Lemma andP {b1 b2 : bool} : reflect (b1 /\ b2) (b1 && b2).
Proof. destruct b1, b2; constructor; naive_solver. Qed.

Lemma orP {b1 b2 : bool} : reflect (b1 \/ b2) (b1 || b2).
Proof. destruct b1, b2; constructor; naive_solver. Qed.

Lemma implyP {b1 b2 : bool} : reflect (b1 -> b2) (b1 ==> b2).
Proof. destruct b1, b2; constructor; naive_solver. Qed.

Lemma contraNN {b1 b2 : bool} : (b1 -> b2) -> ~~ b2 -> ~~ b1.
Proof. by destruct b1, b2. Qed.

More flexible version of reflect: using H : reflectPQ (m < n) (n m) b instead of H : reflect (m < n) b avoids introducing ~(m < n) in the context.
Typical users will still pick P and Q such that Q ¬P, even if that's not strictly enforced.
Variant reflectPQ (P Q : Prop) : bool -> Prop :=
| rPQ_true (_ : P) : reflectPQ P Q true
| rPQ_false (_ : Q) : reflectPQ P Q false.

Lemma Is_true_is_true b : Is_true b is_true b.
Proof. by destruct b. Qed.
Lemma Is_true_eq b : Is_true b b = true.
Proof. by rewrite Is_true_is_true. Qed.

#[global] Instance orb_comm' : Comm (=) orb := orb_comm.
#[global] Instance orb_assoc' : Assoc (=) orb := orb_assoc.
#[global] Instance andb_comm' : Comm (=) andb := andb_comm.
#[global] Instance andb_assoc' : Assoc (=) andb := andb_assoc.

Section implb.
  Implicit Types a b : bool.

  Lemma implb_True a b : implb a b (a b).
  Proof. by rewrite !Is_true_is_true /is_true implb_true_iff. Qed.
  Lemma implb_prop_intro a b : (a b) implb a b.
  Proof. by rewrite implb_True. Qed.
  Lemma implb_prop_elim a b : implb a b a b.
  Proof. by rewrite implb_True. Qed.
End implb.

Lemma bool_decide_Is_true (b : bool) : bool_decide (Is_true b) = b.
Proof. by case: b. Qed.

Lemma bool_decide_bool_eq b : bool_decide (b = true) = b.
Proof. by case: b. Qed.

Lemma bool_decide_is_true b : bool_decide (is_true b) = b.
Proof. by case: b. Qed.

#[global] Instance andb_left_id : LeftId (=) true andb := andb_true_l.
#[global] Instance andb_right_id : RightId (=) true andb := andb_true_r.
#[global] Instance andb_left_absorb : LeftAbsorb (=) false andb := andb_false_l.
#[global] Instance andb_right_absorb : RightAbsorb (=) false andb := andb_false_r.

#[global] Instance orb_left_id : LeftId (=) false orb := orb_false_l.
#[global] Instance orb_right_id : RightId (=) false orb := orb_false_r.
#[global] Instance orb_left_absorb : LeftAbsorb (=) true orb := orb_true_l.
#[global] Instance orb_right_absorb : RightAbsorb (=) true orb := orb_true_r.

#[global] Instance set_unfold_negb (b : bool) P :
  SetUnfold b P SetUnfold (negb b) (¬ P).
Proof. constructor. rewrite negb_True. set_solver. Qed.

#[global] Instance set_unfold_andb (b1 b2 : bool) P Q :
  SetUnfold b1 P SetUnfold b2 Q
  SetUnfold (b1 && b2) (P Q).
Proof. constructor. rewrite andb_True. set_solver. Qed.

#[global] Instance set_unfold_orb (b1 b2 : bool) P Q :
  SetUnfold b1 P SetUnfold b2 Q
  SetUnfold (b1 || b2) (P Q).
Proof. constructor. rewrite orb_True. set_solver. Qed.

#[global] Instance set_unfold_bool_decide (P Q : Prop) `{!Decision P} :
  SetUnfold P Q SetUnfold (bool_decide P) Q.
Proof. constructor. rewrite bool_decide_spec. set_solver. Qed.

Simple extensions to Stdlib's Bool
Module Bool.
  Export Stdlib.Bool.Bool.
  #[local] Open Scope bool_scope.

Properties of Bool.le

  Definition leb (b1 b2 : bool) : bool :=
    if b1 then b2 else true.

  Lemma le_leb b1 b2 : b1 <= b2 <-> leb b1 b2.
  Proof. by destruct b1, b2. Qed.

  #[global] Instance le_dec : RelDecision (<=).
  Proof.
    refine (fun b1 b2 => cast_if (decide (leb b1 b2)));
      by rewrite le_leb.
  Qed.

  #[global] Instance le_pi a b : ProofIrrel (a <= b).
  Proof. destruct a, b; apply _. Qed.

  #[global] Instance le_preorder : PreOrder (<=).
  Proof. split. by intros []. by intros [] [] []. Qed.

  Lemma le_andb_l a b : a && b <= a.
  Proof. by destruct a, b. Qed.
  #[global] Hint Resolve le_andb_l : core.

  Lemma le_andb_r a b : a && b <= b.
  Proof. by destruct a, b. Qed.
  #[global] Hint Resolve le_andb_r : core.

  Lemma andb_min_l a b : a <= b -> a && b = a.
  Proof. by destruct a, b. Qed.
  Lemma andb_min_r a b : a <= b -> b && a = a.
  Proof. by destruct a, b. Qed.
End Bool.