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Require Export algebra.cmra.
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Require Import algebra.functor.
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Local Arguments validN _ _ _ !_ /.
Local Arguments valid _ _  !_ /.
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Inductive excl (A : Type) :=
  | Excl : A  excl A
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  | ExclUnit : excl A
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  | ExclBot : excl A.
Arguments Excl {_} _.
Arguments ExclUnit {_}.
Arguments ExclBot {_}.
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Instance maybe_Excl {A} : Maybe (@Excl A) := λ x,
  match x with Excl a => Some a | _ => None end.
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Section excl.
Context {A : cofeT}.

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(* Cofe *)
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Inductive excl_equiv : Equiv (excl A) :=
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  | Excl_equiv (x y : A) : x  y  Excl x  Excl y
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  | ExclUnit_equiv : ExclUnit  ExclUnit
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  | ExclBot_equiv : ExclBot  ExclBot.
Existing Instance excl_equiv.
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Inductive excl_dist `{Dist A} : Dist (excl A) :=
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  | Excl_dist (x y : A) n : x {n} y  Excl x {n} Excl y
  | ExclUnit_dist n : ExclUnit {n} ExclUnit
  | ExclBot_dist n : ExclBot {n} ExclBot.
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Existing Instance excl_dist.
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Global Instance Excl_ne : Proper (dist n ==> dist n) (@Excl A).
Proof. by constructor. Qed.
Global Instance Excl_proper : Proper (() ==> ()) (@Excl A).
Proof. by constructor. Qed.
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Global Instance Excl_inj : Inj () () (@Excl A).
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Proof. by inversion_clear 1. Qed.
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Global Instance Excl_dist_inj n : Inj (dist n) (dist n) (@Excl A).
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Proof. by inversion_clear 1. Qed.
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Program Definition excl_chain
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    (c : chain (excl A)) (x : A) (H : maybe Excl (c 1) = Some x) : chain A :=
  {| chain_car n := match c n return _ with Excl y => y | _ => x end |}.
Next Obligation.
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  intros c x ? n [|i] ?; [omega|]; simpl.
  destruct (c 1) eqn:?; simplify_equality'.
  by feed inversion (chain_cauchy c n (S i)).
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Qed.
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Instance excl_compl : Compl (excl A) := λ c,
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  match Some_dec (maybe Excl (c 1)) with
  | inleft (exist x H) => Excl (compl (excl_chain c x H)) | inright _ => c 1
  end.
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Definition excl_cofe_mixin : CofeMixin (excl A).
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Proof.
  split.
  * intros mx my; split; [by destruct 1; constructor; apply equiv_dist|].
    intros Hxy; feed inversion (Hxy 1); subst; constructor; apply equiv_dist.
    by intros n; feed inversion (Hxy n).
  * intros n; split.
    + by intros [x| |]; constructor.
    + by destruct 1; constructor.
    + destruct 1; inversion_clear 1; constructor; etransitivity; eauto.
  * by inversion_clear 1; constructor; apply dist_S.
  * intros c n; unfold compl, excl_compl.
    destruct (Some_dec (maybe Excl (c 1))) as [[x Hx]|].
    { assert (c 1 = Excl x) by (by destruct (c 1); simplify_equality').
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      assert ( y, c (S n) = Excl y) as [y Hy].
      { feed inversion (chain_cauchy c 0 (S n)); eauto with lia congruence. }
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      rewrite Hy; constructor.
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      by rewrite (conv_compl (excl_chain c x Hx) n) /= Hy. }
    feed inversion (chain_cauchy c 0 (S n)); first lia;
       constructor; destruct (c 1); simplify_equality'.
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Qed.
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Canonical Structure exclC : cofeT := CofeT excl_cofe_mixin.

Global Instance Excl_timeless (x : A) : Timeless x  Timeless (Excl x).
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Proof. by inversion_clear 2; constructor; apply (timeless _). Qed.
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Global Instance ExclUnit_timeless : Timeless (@ExclUnit A).
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Proof. by inversion_clear 1; constructor. Qed.
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Global Instance ExclBot_timeless : Timeless (@ExclBot A).
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Proof. by inversion_clear 1; constructor. Qed.
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Global Instance excl_timeless :
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  ( x : A, Timeless x)   x : excl A, Timeless x.
Proof. intros ? []; apply _. Qed.
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Global Instance excl_leibniz : LeibnizEquiv A  LeibnizEquiv (excl A).
Proof. by destruct 2; f_equal; apply leibniz_equiv. Qed.
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(* CMRA *)
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Instance excl_validN : ValidN (excl A) := λ n x,
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  match x with Excl _ | ExclUnit => True | ExclBot => False end.
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Global Instance excl_empty : Empty (excl A) := ExclUnit.
Instance excl_unit : Unit (excl A) := λ _, .
Instance excl_op : Op (excl A) := λ x y,
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  match x, y with
  | Excl x, ExclUnit | ExclUnit, Excl x => Excl x
  | ExclUnit, ExclUnit => ExclUnit
  | _, _=> ExclBot
  end.
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Instance excl_minus : Minus (excl A) := λ x y,
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  match x, y with
  | _, ExclUnit => x
  | Excl _, Excl _ => ExclUnit
  | _, _ => ExclBot
  end.
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Definition excl_cmra_mixin : CMRAMixin (excl A).
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Proof.
  split.
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  * by intros n []; destruct 1; constructor.
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  * constructor.
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  * by destruct 1; intros ?.
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  * by destruct 1; inversion_clear 1; constructor.
  * intros n [?| |]; simpl; auto with lia.
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  * by intros [?| |] [?| |] [?| |]; constructor.
  * by intros [?| |] [?| |]; constructor.
  * by intros [?| |]; constructor.
  * constructor.
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  * by intros n [?| |] [?| |]; exists .
  * by intros n [?| |] [?| |].
  * by intros n [?| |] [?| |] [[?| |] Hz]; inversion_clear Hz; constructor.
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Qed.
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Definition excl_cmra_extend_mixin : CMRAExtendMixin (excl A).
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Proof.
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  intros n x y1 y2 ? Hx.
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  by exists match y1, y2 with
    | Excl a1, Excl a2 => (Excl a1, Excl a2)
    | ExclBot, _ => (ExclBot, y2) | _, ExclBot => (y1, ExclBot)
    | ExclUnit, _ => (ExclUnit, x) | _, ExclUnit => (x, ExclUnit)
    end; destruct y1, y2; inversion_clear Hx; repeat constructor.
Qed.
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Canonical Structure exclRA : cmraT :=
  CMRAT excl_cofe_mixin excl_cmra_mixin excl_cmra_extend_mixin.
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Global Instance excl_cmra_identity : CMRAIdentity exclRA.
Proof. split. done. by intros []. apply _. Qed.
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Lemma excl_validN_inv_l n x y : {n} (Excl x  y)  y = .
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Proof. by destruct y. Qed.
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Lemma excl_validN_inv_r n x y : {n} (x  Excl y)  x = .
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Proof. by destruct x. Qed.
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Lemma Excl_includedN n x y : {n} y  Excl x {n} y  y {n} Excl x.
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Proof.
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  intros Hvalid; split; [|by intros ->].
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  by intros [z ?]; cofe_subst; rewrite (excl_validN_inv_l n x z).
Qed.
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(** ** Local updates *)
Global Instance excl_local_update b :
  LocalUpdate (λ a, if a is Excl _ then True else False) (λ _, Excl b).
Proof. split. by intros n y1 y2 Hy. by intros n [a| |] [b'| |]. Qed.

(** Updates *)
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Lemma excl_update (x : A) y :  y  Excl x ~~> y.
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Proof. by destruct y; intros ? [?| |]. Qed.
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Lemma excl_updateP (P : excl A  Prop) x y :  y  P y  Excl x ~~>: P.
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Proof. intros ?? z n ?; exists y. by destruct y, z as [?| |]. Qed.
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End excl.

Arguments exclC : clear implicits.
Arguments exclRA : clear implicits.
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(* Functor *)
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Definition excl_map {A B} (f : A  B) (x : excl A) : excl B :=
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  match x with
  | Excl a => Excl (f a) | ExclUnit => ExclUnit | ExclBot => ExclBot
  end.
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Lemma excl_map_id {A} (x : excl A) : excl_map id x = x.
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Proof. by destruct x. Qed.
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Lemma excl_map_compose {A B C} (f : A  B) (g : B  C) (x : excl A) :
  excl_map (g  f) x = excl_map g (excl_map f x).
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Proof. by destruct x. Qed.
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Lemma excl_map_ext {A B : cofeT} (f g : A  B) x :
  ( x, f x  g x)  excl_map f x  excl_map g x.
Proof. by destruct x; constructor. Qed.
Instance excl_map_cmra_ne {A B : cofeT} n :
  Proper ((dist n ==> dist n) ==> dist n ==> dist n) (@excl_map A B).
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Proof. by intros f f' Hf; destruct 1; constructor; apply Hf. Qed.
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Instance excl_map_cmra_monotone {A B : cofeT} (f : A  B) :
  ( n, Proper (dist n ==> dist n) f)  CMRAMonotone (excl_map f).
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Proof.
  split.
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  * intros n x y [z Hy]; exists (excl_map f z); rewrite Hy.
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    by destruct x, z; constructor.
  * by intros n [a| |].
Qed.
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Definition exclC_map {A B} (f : A -n> B) : exclC A -n> exclC B :=
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  CofeMor (excl_map f).
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Instance exclC_map_ne A B n : Proper (dist n ==> dist n) (@exclC_map A B).
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Proof. by intros f f' Hf []; constructor; apply Hf. Qed.
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Program Definition exclF : iFunctor :=
  {| ifunctor_car := exclRA; ifunctor_map := @exclC_map |}.
Next Obligation. by intros A x; rewrite /= excl_map_id. Qed.
Next Obligation. by intros A B C f g x; rewrite /= excl_map_compose. Qed.