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From iris.proofmode Require Export classes.
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From iris.algebra Require Import gmap.
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From stdpp Require Import gmultiset.
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From iris.base_logic Require Import big_op tactics.
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Set Default Proof Using "Type".
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Import uPred.

Section classes.
Context {M : ucmraT}.
Implicit Types P Q R : uPred M.

(* FromAssumption *)
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Global Instance from_assumption_exact p P : FromAssumption p P P | 0.
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Proof. destruct p; by rewrite /FromAssumption /= ?always_elim. Qed.
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Global Instance from_assumption_False p P : FromAssumption p False P | 1.
Proof. destruct p; rewrite /FromAssumption /= ?always_pure; apply False_elim. Qed.

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Global Instance from_assumption_always_r P Q :
  FromAssumption true P Q  FromAssumption true P ( Q).
Proof. rewrite /FromAssumption=><-. by rewrite always_always. Qed.
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Global Instance from_assumption_always_l p P Q :
  FromAssumption p P Q  FromAssumption p ( P) Q.
Proof. rewrite /FromAssumption=><-. by rewrite always_elim. Qed.
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Global Instance from_assumption_later p P Q :
  FromAssumption p P Q  FromAssumption p P ( Q)%I.
Proof. rewrite /FromAssumption=>->. apply later_intro. Qed.
Global Instance from_assumption_laterN n p P Q :
  FromAssumption p P Q  FromAssumption p P (^n Q)%I.
Proof. rewrite /FromAssumption=>->. apply laterN_intro. Qed.
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Global Instance from_assumption_bupd p P Q :
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  FromAssumption p P Q  FromAssumption p P (|==> Q)%I.
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Proof. rewrite /FromAssumption=>->. apply bupd_intro. Qed.
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Global Instance from_assumption_forall {A} p (Φ : A  uPred M) Q x :
  FromAssumption p (Φ x) Q  FromAssumption p ( x, Φ x) Q.
Proof. rewrite /FromAssumption=> <-. by rewrite forall_elim. Qed.
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(* IntoPure *)
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Global Instance into_pure_pure φ : @IntoPure M ⌜φ⌝ φ.
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Proof. done. Qed.
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Global Instance into_pure_eq {A : ofeT} (a b : A) :
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  Timeless a  @IntoPure M (a  b) (a  b).
Proof. intros. by rewrite /IntoPure timeless_eq. Qed.
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Global Instance into_pure_cmra_valid `{CMRADiscrete A} (a : A) :
  @IntoPure M ( a) ( a).
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Proof. by rewrite /IntoPure discrete_valid. Qed.

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Global Instance into_pure_pure_and (φ1 φ2 : Prop) P1 P2 :
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  IntoPure P1 φ1  IntoPure P2 φ2  IntoPure (P1  P2) (φ1  φ2).
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Proof. rewrite /IntoPure pure_and. by intros -> ->. Qed.
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Global Instance into_pure_pure_sep (φ1 φ2 : Prop) P1 P2 :
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  IntoPure P1 φ1  IntoPure P2 φ2  IntoPure (P1  P2) (φ1  φ2).
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Proof. rewrite /IntoPure sep_and pure_and. by intros -> ->. Qed.
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Global Instance into_pure_pure_or (φ1 φ2 : Prop) P1 P2 :
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  IntoPure P1 φ1  IntoPure P2 φ2  IntoPure (P1  P2) (φ1  φ2).
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Proof. rewrite /IntoPure pure_or. by intros -> ->. Qed.
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Global Instance into_pure_pure_impl (φ1 φ2 : Prop) P1 P2 :
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  FromPure P1 φ1  IntoPure P2 φ2  IntoPure (P1  P2) (φ1  φ2).
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Proof. rewrite /FromPure /IntoPure pure_impl. by intros -> ->. Qed.
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Global Instance into_pure_pure_wand (φ1 φ2 : Prop) P1 P2 :
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  FromPure P1 φ1  IntoPure P2 φ2  IntoPure (P1 - P2) (φ1  φ2).
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Proof.
  rewrite /FromPure /IntoPure pure_impl always_impl_wand. by intros -> ->.
Qed.

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Global Instance into_pure_exist {X : Type} (Φ : X  uPred M) (φ : X  Prop) :
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  ( x, @IntoPure M (Φ x) (φ x))  @IntoPure M ( x, Φ x) ( x, φ x).
Proof.
  rewrite /IntoPure=>Hx. apply exist_elim=>x. rewrite Hx.
  apply pure_elim'=>Hφ. apply pure_intro. eauto.
Qed.

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Global Instance into_pure_forall {X : Type} (Φ : X  uPred M) (φ : X  Prop) :
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  ( x, @IntoPure M (Φ x) (φ x))  @IntoPure M ( x, Φ x) ( x, φ x).
Proof.
  rewrite /IntoPure=>Hx. rewrite -pure_forall_2. by setoid_rewrite Hx.
Qed.

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(* FromPure *)
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Global Instance from_pure_pure φ : @FromPure M ⌜φ⌝ φ.
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Proof. done. Qed.
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Global Instance from_pure_internal_eq {A : ofeT} (a b : A) :
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  @FromPure M (a  b) (a  b).
Proof.
  rewrite /FromPure. eapply pure_elim; [done|]=> ->. apply internal_eq_refl'.
Qed.
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Global Instance from_pure_cmra_valid {A : cmraT} (a : A) :
  @FromPure M ( a) ( a).
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Proof.
  rewrite /FromPure. eapply pure_elim; [done|]=> ?.
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  rewrite -cmra_valid_intro //. auto with I.
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Qed.
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Global Instance from_pure_bupd P φ : FromPure P φ  FromPure (|==> P) φ.
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Proof. rewrite /FromPure=> ->. apply bupd_intro. Qed.
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Global Instance from_pure_pure_and (φ1 φ2 : Prop) P1 P2 :
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  FromPure P1 φ1  FromPure P2 φ2  FromPure (P1  P2) (φ1  φ2).
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Proof. rewrite /FromPure pure_and. by intros -> ->. Qed.
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Global Instance from_pure_pure_sep (φ1 φ2 : Prop) P1 P2 :
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  FromPure P1 φ1  FromPure P2 φ2  FromPure (P1  P2) (φ1  φ2).
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Proof. rewrite /FromPure pure_and always_and_sep_l. by intros -> ->. Qed.
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Global Instance from_pure_pure_or (φ1 φ2 : Prop) P1 P2 :
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  FromPure P1 φ1  FromPure P2 φ2  FromPure (P1  P2) (φ1  φ2).
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Proof. rewrite /FromPure pure_or. by intros -> ->. Qed.
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Global Instance from_pure_pure_impl (φ1 φ2 : Prop) P1 P2 :
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  IntoPure P1 φ1  FromPure P2 φ2  FromPure (P1  P2) (φ1  φ2).
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Proof. rewrite /FromPure /IntoPure pure_impl. by intros -> ->. Qed.
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Global Instance from_pure_pure_wand (φ1 φ2 : Prop) P1 P2 :
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  IntoPure P1 φ1  FromPure P2 φ2  FromPure (P1 - P2) (φ1  φ2).
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Proof.
  rewrite /FromPure /IntoPure pure_impl always_impl_wand. by intros -> ->.
Qed.

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Global Instance from_pure_exist {X : Type} (Φ : X  uPred M) (φ : X  Prop) :
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  ( x, @FromPure M (Φ x) (φ x))  @FromPure M ( x, Φ x) ( x, φ x).
Proof.
  rewrite /FromPure=>Hx. apply pure_elim'=>-[x ?]. rewrite -(exist_intro x).
  rewrite -Hx. apply pure_intro. done.
Qed.
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Global Instance from_pure_forall {X : Type} (Φ : X  uPred M) (φ : X  Prop) :
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  ( x, @FromPure M (Φ x) (φ x))  @FromPure M ( x, Φ x) ( x, φ x).
Proof.
  rewrite /FromPure=>Hx. apply forall_intro=>x. apply pure_elim'=>Hφ.
  rewrite -Hx. apply pure_intro. done.
Qed.

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(* IntoPersistentP *)
Global Instance into_persistentP_always_trans P Q :
  IntoPersistentP P Q  IntoPersistentP ( P) Q | 0.
Proof. rewrite /IntoPersistentP=> ->. by rewrite always_always. Qed.
Global Instance into_persistentP_always P : IntoPersistentP ( P) P | 1.
Proof. done. Qed.
Global Instance into_persistentP_persistent P :
  PersistentP P  IntoPersistentP P P | 100.
Proof. done. Qed.

(* IntoLater *)
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Global Instance into_laterN_later n P Q :
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  IntoLaterN n P Q  IntoLaterN' (S n) ( P) Q.
Proof. by rewrite /IntoLaterN' /IntoLaterN =>->. Qed.
Global Instance into_laterN_laterN n P : IntoLaterN' n (^n P) P.
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Proof. done. Qed.
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Global Instance into_laterN_laterN_plus n m P Q :
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  IntoLaterN m P Q  IntoLaterN' (n + m) (^n P) Q.
Proof. rewrite /IntoLaterN' /IntoLaterN=>->. by rewrite laterN_plus. Qed.
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Global Instance into_laterN_and_l n P1 P2 Q1 Q2 :
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  IntoLaterN' n P1 Q1  IntoLaterN n P2 Q2 
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  IntoLaterN' n (P1  P2) (Q1  Q2) | 10.
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Proof. rewrite /IntoLaterN' /IntoLaterN=> -> ->. by rewrite laterN_and. Qed.
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Global Instance into_laterN_and_r n P P2 Q2 :
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  IntoLaterN' n P2 Q2  IntoLaterN' n (P  P2) (P  Q2) | 11.
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Proof.
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  rewrite /IntoLaterN' /IntoLaterN=> ->. by rewrite laterN_and -(laterN_intro _ P).
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Qed.
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Global Instance into_laterN_or_l n P1 P2 Q1 Q2 :
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  IntoLaterN' n P1 Q1  IntoLaterN n P2 Q2 
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  IntoLaterN' n (P1  P2) (Q1  Q2) | 10.
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Proof. rewrite /IntoLaterN' /IntoLaterN=> -> ->. by rewrite laterN_or. Qed.
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Global Instance into_laterN_or_r n P P2 Q2 :
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  IntoLaterN' n P2 Q2 
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  IntoLaterN' n (P  P2) (P  Q2) | 11.
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Proof.
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  rewrite /IntoLaterN' /IntoLaterN=> ->. by rewrite laterN_or -(laterN_intro _ P).
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Qed.

Global Instance into_laterN_sep_l n P1 P2 Q1 Q2 :
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  IntoLaterN' n P1 Q1  IntoLaterN n P2 Q2 
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  IntoLaterN' n (P1  P2) (Q1  Q2) | 10.
Proof. rewrite /IntoLaterN' /IntoLaterN=> -> ->. by rewrite laterN_sep. Qed.
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Global Instance into_laterN_sep_r n P P2 Q2 :
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  IntoLaterN' n P2 Q2 
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  IntoLaterN' n (P  P2) (P  Q2) | 11.
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Proof.
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  rewrite /IntoLaterN' /IntoLaterN=> ->. by rewrite laterN_sep -(laterN_intro _ P).
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Qed.
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Global Instance into_laterN_big_sepL n {A} (Φ Ψ : nat  A  uPred M) (l: list A) :
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  ( x k, IntoLaterN' n (Φ k x) (Ψ k x)) 
  IntoLaterN' n ([ list] k  x  l, Φ k x) ([ list] k  x  l, Ψ k x).
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Proof.
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  rewrite /IntoLaterN' /IntoLaterN=> ?.
  rewrite big_sepL_laterN. by apply big_sepL_mono.
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Qed.
Global Instance into_laterN_big_sepM n `{Countable K} {A}
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    (Φ Ψ : K  A  uPred M) (m : gmap K A) :
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  ( x k, IntoLaterN' n (Φ k x) (Ψ k x)) 
  IntoLaterN' n ([ map] k  x  m, Φ k x) ([ map] k  x  m, Ψ k x).
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Proof.
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  rewrite /IntoLaterN' /IntoLaterN=> ?.
  rewrite big_sepM_laterN; by apply big_sepM_mono.
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Qed.
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Global Instance into_laterN_big_sepS n `{Countable A}
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    (Φ Ψ : A  uPred M) (X : gset A) :
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  ( x, IntoLaterN' n (Φ x) (Ψ x)) 
  IntoLaterN' n ([ set] x  X, Φ x) ([ set] x  X, Ψ x).
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Proof.
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  rewrite /IntoLaterN' /IntoLaterN=> ?.
  rewrite big_sepS_laterN; by apply big_sepS_mono.
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Qed.
Global Instance into_laterN_big_sepMS n `{Countable A}
    (Φ Ψ : A  uPred M) (X : gmultiset A) :
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  ( x, IntoLaterN' n (Φ x) (Ψ x)) 
  IntoLaterN' n ([ mset] x  X, Φ x) ([ mset] x  X, Ψ x).
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Proof.
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  rewrite /IntoLaterN' /IntoLaterN=> ?.
  rewrite big_sepMS_laterN; by apply big_sepMS_mono.
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Qed.

(* FromLater *)
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Global Instance from_laterN_later P :FromLaterN 1 ( P) P | 0.
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Proof. done. Qed.
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Global Instance from_laterN_laterN n P : FromLaterN n (^n P) P | 0.
Proof. done. Qed.

(* The instances below are used when stripping a specific number of laters, or
to balance laters in different branches of ∧, ∨ and ∗. *)
Global Instance from_laterN_0 P : FromLaterN 0 P P | 100. (* fallthrough *)
Proof. done. Qed.
Global Instance from_laterN_later_S n P Q :
  FromLaterN n P Q  FromLaterN (S n) ( P) Q.
Proof. by rewrite /FromLaterN=><-. Qed.
Global Instance from_laterN_later_plus n m P Q :
  FromLaterN m P Q  FromLaterN (n + m) (^n P) Q.
Proof. rewrite /FromLaterN=><-. by rewrite laterN_plus. Qed.

Global Instance from_later_and n P1 P2 Q1 Q2 :
  FromLaterN n P1 Q1  FromLaterN n P2 Q2  FromLaterN n (P1  P2) (Q1  Q2).
Proof. intros ??; red. by rewrite laterN_and; apply and_mono. Qed.
Global Instance from_later_or n P1 P2 Q1 Q2 :
  FromLaterN n P1 Q1  FromLaterN n P2 Q2  FromLaterN n (P1  P2) (Q1  Q2).
Proof. intros ??; red. by rewrite laterN_or; apply or_mono. Qed.
Global Instance from_later_sep n P1 P2 Q1 Q2 :
  FromLaterN n P1 Q1  FromLaterN n P2 Q2  FromLaterN n (P1  P2) (Q1  Q2).
Proof. intros ??; red. by rewrite laterN_sep; apply sep_mono. Qed.
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Global Instance from_later_always n P Q :
  FromLaterN n P Q  FromLaterN n ( P) ( Q).
Proof. by rewrite /FromLaterN -always_laterN=> ->. Qed.

Global Instance from_later_forall {A} n (Φ Ψ : A  uPred M) :
  ( x, FromLaterN n (Φ x) (Ψ x))  FromLaterN n ( x, Φ x) ( x, Ψ x).
Proof. rewrite /FromLaterN laterN_forall=> ?. by apply forall_mono. Qed.
Global Instance from_later_exist {A} n (Φ Ψ : A  uPred M) :
  Inhabited A  ( x, FromLaterN n (Φ x) (Ψ x)) 
  FromLaterN n ( x, Φ x) ( x, Ψ x).
Proof. intros ?. rewrite /FromLaterN laterN_exist=> ?. by apply exist_mono. Qed.

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(* IntoWand *)
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Global Instance wand_weaken_exact P Q : WandWeaken P Q P Q.
Proof. done. Qed.
Global Instance wand_weaken_later P Q P' Q' :
  WandWeaken P Q P' Q'  WandWeaken' P Q ( P') ( Q').
Proof.
  rewrite /WandWeaken' /WandWeaken=> ->. by rewrite -later_wand -later_intro.
Qed.
Global Instance wand_weaken_laterN n P Q P' Q' :
  WandWeaken P Q P' Q'  WandWeaken' P Q (^n P') (^n Q').
Proof.
  rewrite /WandWeaken' /WandWeaken=> ->. by rewrite -laterN_wand -laterN_intro.
Qed.
Global Instance bupd_weaken_laterN P Q P' Q' :
  WandWeaken P Q P' Q'  WandWeaken' P Q (|==> P') (|==> Q').
Proof.
  rewrite /WandWeaken' /WandWeaken=> ->.
  apply wand_intro_l. by rewrite bupd_wand_r.
Qed.

Global Instance into_wand_wand P P' Q Q' :
  WandWeaken P Q P' Q'  IntoWand (P - Q) P' Q'.
Proof. done. Qed.
Global Instance into_wand_impl P P' Q Q' :
  WandWeaken P Q P' Q'  IntoWand (P  Q) P' Q'.
Proof. rewrite /WandWeaken /IntoWand /= => <-. apply impl_wand. Qed.

Global Instance into_wand_iff_l P P' Q Q' :
  WandWeaken P Q P' Q'  IntoWand (P  Q) P' Q'.
Proof. rewrite /WandWeaken /IntoWand=> <-. apply and_elim_l', impl_wand. Qed.
Global Instance into_wand_iff_r P P' Q Q' :
  WandWeaken Q P Q' P'  IntoWand (P  Q) Q' P'.
Proof. rewrite /WandWeaken /IntoWand=> <-. apply and_elim_r', impl_wand. Qed.
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Global Instance into_wand_forall {A} (Φ : A  uPred M) P Q x :
  IntoWand (Φ x) P Q  IntoWand ( x, Φ x) P Q.
Proof. rewrite /IntoWand=> <-. apply forall_elim. Qed.
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Global Instance into_wand_always R P Q : IntoWand R P Q  IntoWand ( R) P Q.
Proof. rewrite /IntoWand=> ->. apply always_elim. Qed.
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Global Instance into_wand_later R P Q :
  IntoWand R P Q  IntoWand ( R) ( P) ( Q).
Proof. rewrite /IntoWand=> ->. by rewrite -later_wand. Qed.
Global Instance into_wand_laterN n R P Q :
  IntoWand R P Q  IntoWand (^n R) (^n P) (^n Q).
Proof. rewrite /IntoWand=> ->. by rewrite -laterN_wand. Qed.
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Global Instance into_wand_bupd R P Q :
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  IntoWand R P Q  IntoWand (|==> R) (|==> P) (|==> Q).
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Proof.
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  rewrite /IntoWand=> ->. apply wand_intro_l. by rewrite bupd_sep wand_elim_r.
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Qed.
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(* FromAnd *)
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Global Instance from_and_and p P1 P2 : FromAnd p (P1  P2) P1 P2 | 100.
Proof. by apply mk_from_and_and. Qed.

Global Instance from_and_sep P1 P2 : FromAnd false (P1  P2) P1 P2 | 100.
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Proof. done. Qed.
Global Instance from_and_sep_persistent_l P1 P2 :
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  PersistentP P1  FromAnd true (P1  P2) P1 P2 | 9.
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Proof. intros. by rewrite /FromAnd always_and_sep_l. Qed.
Global Instance from_and_sep_persistent_r P1 P2 :
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  PersistentP P2  FromAnd true (P1  P2) P1 P2 | 10.
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Proof. intros. by rewrite /FromAnd always_and_sep_r. Qed.
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Global Instance from_and_pure p φ ψ : @FromAnd M p ⌜φ  ψ⌝ ⌜φ⌝ ⌜ψ⌝.
Proof. apply mk_from_and_and. by rewrite pure_and. Qed.
Global Instance from_and_always p P Q1 Q2 :
  FromAnd false P Q1 Q2  FromAnd p ( P) ( Q1) ( Q2).
Proof.
  intros. apply mk_from_and_and.
  by rewrite always_and_sep_l' -always_sep -(from_and _ P).
Qed.
Global Instance from_and_later p P Q1 Q2 :
  FromAnd p P Q1 Q2  FromAnd p ( P) ( Q1) ( Q2).
Proof. rewrite /FromAnd=> <-. destruct p; by rewrite ?later_and ?later_sep. Qed.
Global Instance from_and_laterN p n P Q1 Q2 :
  FromAnd p P Q1 Q2  FromAnd p (^n P) (^n Q1) (^n Q2).
Proof. rewrite /FromAnd=> <-. destruct p; by rewrite ?laterN_and ?laterN_sep. Qed.

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Global Instance from_sep_ownM (a b1 b2 : M) :
  FromOp a b1 b2 
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  FromAnd false (uPred_ownM a) (uPred_ownM b1) (uPred_ownM b2).
Proof. intros. by rewrite /FromAnd -ownM_op from_op. Qed.

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Global Instance from_sep_bupd P Q1 Q2 :
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  FromAnd false P Q1 Q2  FromAnd false (|==> P) (|==> Q1) (|==> Q2).
Proof. rewrite /FromAnd=><-. apply bupd_sep. Qed.

Global Instance from_and_big_sepL_cons {A} (Φ : nat  A  uPred M) x l :
  FromAnd false ([ list] k  y  x :: l, Φ k y) (Φ 0 x) ([ list] k  y  l, Φ (S k) y).
Proof. by rewrite /FromAnd big_sepL_cons. Qed.
Global Instance from_and_big_sepL_app {A} (Φ : nat  A  uPred M) l1 l2 :
  FromAnd false ([ list] k  y  l1 ++ l2, Φ k y)
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    ([ list] k  y  l1, Φ k y) ([ list] k  y  l2, Φ (length l1 + k) y).
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Proof. by rewrite /FromAnd big_sepL_app. Qed.
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(* FromOp *)
Global Instance from_op_op {A : cmraT} (a b : A) : FromOp (a  b) a b.
Proof. by rewrite /FromOp. Qed.
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(* TODO: Worst case there could be a lot of backtracking on these instances,
try to refactor. *)
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Global Instance from_op_pair {A B : cmraT} (a b1 b2 : A) (a' b1' b2' : B) :
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  FromOp a b1 b2  FromOp a' b1' b2'  FromOp (a,a') (b1,b1') (b2,b2').
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Proof. by constructor. Qed.
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Global Instance from_op_pair_persistent_l {A B : cmraT} (a : A) (a' b1' b2' : B) :
  Persistent a  FromOp a' b1' b2'  FromOp (a,a') (a,b1') (a,b2').
Proof. constructor=> //=. by rewrite -persistent_dup. Qed.
Global Instance from_op_pair_persistent_r {A B : cmraT} (a b1 b2 : A) (a' : B) :
  Persistent a'  FromOp a b1 b2  FromOp (a,a') (b1,a') (b2,a').
Proof. constructor=> //=. by rewrite -persistent_dup. Qed.

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Global Instance from_op_Some {A : cmraT} (a : A) b1 b2 :
  FromOp a b1 b2  FromOp (Some a) (Some b1) (Some b2).
Proof. by constructor. Qed.

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(* IntoOp *)
Global Instance into_op_op {A : cmraT} (a b : A) : IntoOp (a  b) a b.
Proof. by rewrite /IntoOp. Qed.
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Global Instance into_op_pair {A B : cmraT} (a b1 b2 : A) (a' b1' b2' : B) :
  IntoOp a b1 b2  IntoOp a' b1' b2' 
  IntoOp (a,a') (b1,b1') (b2,b2').
Proof. by constructor. Qed.
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Global Instance into_op_pair_persistent_l {A B : cmraT} (a : A) (a' b1' b2' : B) :
  Persistent a  IntoOp a' b1' b2'  IntoOp (a,a') (a,b1') (a,b2').
Proof. constructor=> //=. by rewrite -persistent_dup. Qed.
Global Instance into_op_pair_persistent_r {A B : cmraT} (a b1 b2 : A) (a' : B) :
  Persistent a'  IntoOp a b1 b2  IntoOp (a,a') (b1,a') (b2,a').
Proof. constructor=> //=. by rewrite -persistent_dup. Qed.

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Global Instance into_op_Some {A : cmraT} (a : A) b1 b2 :
  IntoOp a b1 b2  IntoOp (Some a) (Some b1) (Some b2).
Proof. by constructor. Qed.

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(* IntoAnd *)
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Global Instance into_and_sep p P Q : IntoAnd p (P  Q) P Q.
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Proof. by apply mk_into_and_sep. Qed.
Global Instance into_and_ownM p (a b1 b2 : M) :
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  IntoOp a b1 b2 
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  IntoAnd p (uPred_ownM a) (uPred_ownM b1) (uPred_ownM b2).
Proof. intros. apply mk_into_and_sep. by rewrite (into_op a) ownM_op. Qed.
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Global Instance into_and_and P Q : IntoAnd true (P  Q) P Q.
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Proof. done. Qed.
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Global Instance into_and_and_persistent_l P Q :
  PersistentP P  IntoAnd false (P  Q) P Q.
Proof. intros; by rewrite /IntoAnd /= always_and_sep_l. Qed.
Global Instance into_and_and_persistent_r P Q :
  PersistentP Q  IntoAnd false (P  Q) P Q.
Proof. intros; by rewrite /IntoAnd /= always_and_sep_r. Qed.

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Global Instance into_and_pure p φ ψ : @IntoAnd M p ⌜φ  ψ⌝ ⌜φ⌝ ⌜ψ⌝.
Proof. apply mk_into_and_sep. by rewrite pure_and always_and_sep_r. Qed.
Global Instance into_and_always p P Q1 Q2 :
  IntoAnd true P Q1 Q2  IntoAnd p ( P) ( Q1) ( Q2).
Proof.
  rewrite /IntoAnd=>->. destruct p; by rewrite ?always_and always_and_sep_r.
Qed.
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Global Instance into_and_later p P Q1 Q2 :
  IntoAnd p P Q1 Q2  IntoAnd p ( P) ( Q1) ( Q2).
Proof. rewrite /IntoAnd=>->. destruct p; by rewrite ?later_and ?later_sep. Qed.
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Global Instance into_and_laterN n p P Q1 Q2 :
  IntoAnd p P Q1 Q2  IntoAnd p (^n P) (^n Q1) (^n Q2).
Proof. rewrite /IntoAnd=>->. destruct p; by rewrite ?laterN_and ?laterN_sep. Qed.
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(* We use [IsCons] and [IsApp] to make sure that [frame_big_sepL_cons] and
[frame_big_sepL_app] cannot be applied repeatedly often when having
[ [∗ list] k ↦ x ∈ ?e, Φ k x] with [?e] an evar. *)
Global Instance into_and_big_sepL_cons {A} p (Φ : nat  A  uPred M) l x l' :
  IsCons l x l' 
  IntoAnd p ([ list] k  y  l, Φ k y)
    (Φ 0 x) ([ list] k  y  l', Φ (S k) y).
Proof. rewrite /IsCons=>->. apply mk_into_and_sep. by rewrite big_sepL_cons. Qed.
Global Instance into_and_big_sepL_app {A} p (Φ : nat  A  uPred M) l l1 l2 :
  IsApp l l1 l2 
  IntoAnd p ([ list] k  y  l, Φ k y)
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    ([ list] k  y  l1, Φ k y) ([ list] k  y  l2, Φ (length l1 + k) y).
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Proof. rewrite /IsApp=>->. apply mk_into_and_sep. by rewrite big_sepL_app. Qed.
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(* Frame *)
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Global Instance frame_here p R : Frame p R R True.
Proof. by rewrite /Frame right_id always_if_elim. Qed.
Global Instance frame_here_pure p φ Q : FromPure Q φ  Frame p ⌜φ⌝ Q True.
Proof. rewrite /FromPure /Frame=> ->. by rewrite always_if_elim right_id. Qed.
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Class MakeSep (P Q PQ : uPred M) := make_sep : P  Q  PQ.
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Global Instance make_sep_true_l P : MakeSep True P P.
Proof. by rewrite /MakeSep left_id. Qed.
Global Instance make_sep_true_r P : MakeSep P True P.
Proof. by rewrite /MakeSep right_id. Qed.
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Global Instance make_sep_default P Q : MakeSep P Q (P  Q) | 100.
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Proof. done. Qed.
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Global Instance frame_sep_persistent_l R P1 P2 Q1 Q2 Q' :
  Frame true R P1 Q1  MaybeFrame true R P2 Q2  MakeSep Q1 Q2 Q' 
  Frame true R (P1  P2) Q' | 9.
Proof.
  rewrite /Frame /MaybeFrame /MakeSep /= => <- <- <-.
  rewrite {1}(always_sep_dup ( R)). solve_sep_entails.
Qed.
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Global Instance frame_sep_l R P1 P2 Q Q' :
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  Frame false R P1 Q  MakeSep Q P2 Q'  Frame false R (P1  P2) Q' | 9.
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Proof. rewrite /Frame /MakeSep => <- <-. by rewrite assoc. Qed.
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Global Instance frame_sep_r p R P1 P2 Q Q' :
  Frame p R P2 Q  MakeSep P1 Q Q'  Frame p R (P1  P2) Q' | 10.
Proof. rewrite /Frame /MakeSep => <- <-. by rewrite assoc -(comm _ P1) assoc. Qed.
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Global Instance frame_big_sepL_cons {A} p (Φ : nat  A  uPred M) R Q l x l' :
  IsCons l x l' 
  Frame p R (Φ 0 x  [ list] k  y  l', Φ (S k) y) Q 
  Frame p R ([ list] k  y  l, Φ k y) Q.
Proof. rewrite /IsCons=>->. by rewrite /Frame big_sepL_cons. Qed.
Global Instance frame_big_sepL_app {A} p (Φ : nat  A  uPred M) R Q l l1 l2 :
  IsApp l l1 l2 
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  Frame p R (([ list] k  y  l1, Φ k y) 
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           [ list] k  y  l2, Φ (length l1 + k) y) Q 
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  Frame p R ([ list] k  y  l, Φ k y) Q.
Proof. rewrite /IsApp=>->. by rewrite /Frame big_sepL_app. Qed.
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Class MakeAnd (P Q PQ : uPred M) := make_and : P  Q  PQ.
Global Instance make_and_true_l P : MakeAnd True P P.
Proof. by rewrite /MakeAnd left_id. Qed.
Global Instance make_and_true_r P : MakeAnd P True P.
Proof. by rewrite /MakeAnd right_id. Qed.
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Global Instance make_and_default P Q : MakeAnd P Q (P  Q) | 100.
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Proof. done. Qed.
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Global Instance frame_and_l p R P1 P2 Q Q' :
  Frame p R P1 Q  MakeAnd Q P2 Q'  Frame p R (P1  P2) Q' | 9.
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Proof. rewrite /Frame /MakeAnd => <- <-; eauto 10 with I. Qed.
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Global Instance frame_and_r p R P1 P2 Q Q' :
  Frame p R P2 Q  MakeAnd P1 Q Q'  Frame p R (P1  P2) Q' | 10.
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Proof. rewrite /Frame /MakeAnd => <- <-; eauto 10 with I. Qed.

Class MakeOr (P Q PQ : uPred M) := make_or : P  Q  PQ.
Global Instance make_or_true_l P : MakeOr True P True.
Proof. by rewrite /MakeOr left_absorb. Qed.
Global Instance make_or_true_r P : MakeOr P True True.
Proof. by rewrite /MakeOr right_absorb. Qed.
Global Instance make_or_default P Q : MakeOr P Q (P  Q) | 100.
Proof. done. Qed.
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Global Instance frame_or_persistent_l R P1 P2 Q1 Q2 Q :
  Frame true R P1 Q1  MaybeFrame true R P2 Q2  MakeOr Q1 Q2 Q 
  Frame true R (P1  P2) Q | 9.
Proof. rewrite /Frame /MakeOr => <- <- <-. by rewrite -sep_or_l. Qed.
Global Instance frame_or_persistent_r R P1 P2 Q1 Q2 Q :
  MaybeFrame true R P2 Q2  MakeOr P1 Q2 Q 
  Frame true R (P1  P2) Q | 10.
Proof.
  rewrite /Frame /MaybeFrame /MakeOr => <- <-. by rewrite sep_or_l sep_elim_r.
Qed.
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Global Instance frame_or R P1 P2 Q1 Q2 Q :
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  Frame false R P1 Q1  Frame false R P2 Q2  MakeOr Q1 Q2 Q 
  Frame false R (P1  P2) Q.
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Proof. rewrite /Frame /MakeOr => <- <- <-. by rewrite -sep_or_l. Qed.

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Global Instance frame_wand p R P1 P2 Q2 :
  Frame p R P2 Q2  Frame p R (P1 - P2) (P1 - Q2).
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Proof.
  rewrite /Frame=> ?. apply wand_intro_l.
  by rewrite assoc (comm _ P1) -assoc wand_elim_r.
Qed.

Class MakeLater (P lP : uPred M) := make_later :  P  lP.
Global Instance make_later_true : MakeLater True True.
Proof. by rewrite /MakeLater later_True. Qed.
Global Instance make_later_default P : MakeLater P ( P) | 100.
Proof. done. Qed.

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Global Instance frame_later p R R' P Q Q' :
  IntoLaterN 1 R' R  Frame p R P Q  MakeLater Q Q'  Frame p R' ( P) Q'.
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Proof.
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  rewrite /Frame /MakeLater /IntoLaterN=>-> <- <-.
  by rewrite always_if_later later_sep.
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Qed.

Class MakeLaterN (n : nat) (P lP : uPred M) := make_laterN : ^n P  lP.
Global Instance make_laterN_true n : MakeLaterN n True True.
Proof. by rewrite /MakeLaterN laterN_True. Qed.
Global Instance make_laterN_default P : MakeLaterN n P (^n P) | 100.
Proof. done. Qed.

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Global Instance frame_laterN p n R R' P Q Q' :
  IntoLaterN n R' R  Frame p R P Q  MakeLaterN n Q Q'  Frame p R' (^n P) Q'.
Proof.
  rewrite /Frame /MakeLater /IntoLaterN=>-> <- <-.
  by rewrite always_if_laterN laterN_sep.
Qed.

Class MakeAlways (P Q : uPred M) := make_always :  P  Q.
Global Instance make_always_true : MakeAlways True True.
Proof. by rewrite /MakeAlways always_pure. Qed.
Global Instance make_always_default P : MakeAlways P ( P) | 100.
Proof. done. Qed.

Global Instance frame_always R P Q Q' :
  Frame true R P Q  MakeAlways Q Q'  Frame true R ( P) Q'.
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Proof.
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  rewrite /Frame /MakeAlways=> <- <-.
  by rewrite always_sep /= always_always.
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Qed.

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Class MakeExcept0 (P Q : uPred M) := make_except_0 :  P  Q.
Global Instance make_except_0_True : MakeExcept0 True True.
Proof. by rewrite /MakeExcept0 except_0_True. Qed.
Global Instance make_except_0_default P : MakeExcept0 P ( P) | 100.
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Proof. done. Qed.

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Global Instance frame_except_0 p R P Q Q' :
  Frame p R P Q  MakeExcept0 Q Q'  Frame p R ( P) Q'.
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Proof.
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  rewrite /Frame /MakeExcept0=><- <-.
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  by rewrite except_0_sep -(except_0_intro (?p R)).
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Qed.

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Global Instance frame_exist {A} p R (Φ Ψ : A  uPred M) :
  ( a, Frame p R (Φ a) (Ψ a))  Frame p R ( x, Φ x) ( x, Ψ x).
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Proof. rewrite /Frame=> ?. by rewrite sep_exist_l; apply exist_mono. Qed.
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Global Instance frame_forall {A} p R (Φ Ψ : A  uPred M) :
  ( a, Frame p R (Φ a) (Ψ a))  Frame p R ( x, Φ x) ( x, Ψ x).
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Proof. rewrite /Frame=> ?. by rewrite sep_forall_l; apply forall_mono. Qed.

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Global Instance frame_bupd p R P Q : Frame p R P Q  Frame p R (|==> P) (|==> Q).
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Proof. rewrite /Frame=><-. by rewrite bupd_frame_l. Qed.
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(* FromOr *)
Global Instance from_or_or P1 P2 : FromOr (P1  P2) P1 P2.
Proof. done. Qed.
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Global Instance from_or_bupd P Q1 Q2 :
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  FromOr P Q1 Q2  FromOr (|==> P) (|==> Q1) (|==> Q2).
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Proof. rewrite /FromOr=><-. apply or_elim; apply bupd_mono; auto with I. Qed.
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Global Instance from_or_pure φ ψ : @FromOr M ⌜φ  ψ⌝ ⌜φ⌝ ⌜ψ⌝.
Proof. by rewrite /FromOr pure_or. Qed.
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Global Instance from_or_always P Q1 Q2 :
  FromOr P Q1 Q2  FromOr ( P) ( Q1) ( Q2).
Proof. rewrite /FromOr=> <-. by rewrite always_or. Qed.
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Global Instance from_or_later P Q1 Q2 :
  FromOr P Q1 Q2  FromOr ( P) ( Q1) ( Q2).
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Proof. rewrite /FromOr=><-. by rewrite later_or. Qed.
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Global Instance from_or_laterN n P Q1 Q2 :
  FromOr P Q1 Q2  FromOr (^n P) (^n Q1) (^n Q2).
Proof. rewrite /FromOr=><-. by rewrite laterN_or. Qed.
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(* IntoOr *)
Global Instance into_or_or P Q : IntoOr (P  Q) P Q.
Proof. done. Qed.
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Global Instance into_or_pure φ ψ : @IntoOr M ⌜φ  ψ⌝ ⌜φ⌝ ⌜ψ⌝.
Proof. by rewrite /IntoOr pure_or. Qed.
Global Instance into_or_always P Q1 Q2 :
  IntoOr P Q1 Q2  IntoOr ( P) ( Q1) ( Q2).
Proof. rewrite /IntoOr=>->. by rewrite always_or. Qed.
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Global Instance into_or_later P Q1 Q2 :
  IntoOr P Q1 Q2  IntoOr ( P) ( Q1) ( Q2).
Proof. rewrite /IntoOr=>->. by rewrite later_or. Qed.
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Global Instance into_or_laterN n P Q1 Q2 :
  IntoOr P Q1 Q2  IntoOr (^n P) (^n Q1) (^n Q2).
Proof. rewrite /IntoOr=>->. by rewrite laterN_or. Qed.
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(* FromExist *)
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Global Instance from_exist_exist {A} (Φ : A  uPred M): FromExist ( a, Φ a) Φ.
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Proof. done. Qed.
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Global Instance from_exist_bupd {A} P (Φ : A  uPred M) :
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  FromExist P Φ  FromExist (|==> P) (λ a, |==> Φ a)%I.
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Proof.
  rewrite /FromExist=><-. apply exist_elim=> a. by rewrite -(exist_intro a).
Qed.
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Global Instance from_exist_pure {A} (φ : A  Prop) :
  @FromExist M A  x, φ x (λ a, ⌜φ a)%I.
Proof. by rewrite /FromExist pure_exist. Qed.
Global Instance from_exist_always {A} P (Φ : A  uPred M) :
  FromExist P Φ  FromExist ( P) (λ a,  (Φ a))%I.
Proof.
  rewrite /FromExist=> <-. apply exist_elim=>x. apply always_mono, exist_intro.
Qed.
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Global Instance from_exist_later {A} P (Φ : A  uPred M) :
  FromExist P Φ  FromExist ( P) (λ a,  (Φ a))%I.
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Proof.
  rewrite /FromExist=> <-. apply exist_elim=>x. apply later_mono, exist_intro.
Qed.
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Global Instance from_exist_laterN {A} n P (Φ : A  uPred M) :
  FromExist P Φ  FromExist (^n P) (λ a, ^n (Φ a))%I.
Proof.
  rewrite /FromExist=> <-. apply exist_elim=>x. apply laterN_mono, exist_intro.
Qed.
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(* IntoExist *)
Global Instance into_exist_exist {A} (Φ : A  uPred M) : IntoExist ( a, Φ a) Φ.
Proof. done. Qed.
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Global Instance into_exist_pure {A} (φ : A  Prop) :
  @IntoExist M A  x, φ x (λ a, ⌜φ a)%I.
Proof. by rewrite /IntoExist pure_exist. Qed.
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Global Instance into_exist_always {A} P (Φ : A  uPred M) :
  IntoExist P Φ  IntoExist ( P) (λ a,  (Φ a))%I.
Proof. rewrite /IntoExist=> HP. by rewrite HP always_exist. Qed.
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Global Instance into_exist_later {A} P (Φ : A  uPred M) :
  IntoExist P Φ  Inhabited A  IntoExist ( P) (λ a,  (Φ a))%I.
Proof. rewrite /IntoExist=> HP ?. by rewrite HP later_exist. Qed.
Global Instance into_exist_laterN {A} n P (Φ : A  uPred M) :
  IntoExist P Φ  Inhabited A  IntoExist (^n P) (λ a, ^n (Φ a))%I.
Proof. rewrite /IntoExist=> HP ?. by rewrite HP laterN_exist. Qed.
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(* IntoForall *)
Global Instance into_forall_forall {A} (Φ : A  uPred M) : IntoForall ( a, Φ a) Φ.
Proof. done. Qed.
Global Instance into_forall_always {A} P (Φ : A  uPred M) :
  IntoForall P Φ  IntoForall ( P) (λ a,  (Φ a))%I.
Proof. rewrite /IntoForall=> HP. by rewrite HP always_forall. Qed.

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(* FromModal *)
Global Instance from_modal_later P : FromModal ( P) P.
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Proof. apply later_intro. Qed.
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Global Instance from_modal_bupd P : FromModal (|==> P) P.
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Proof. apply bupd_intro. Qed.
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Global Instance from_modal_except_0 P : FromModal ( P) P.
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Proof. apply except_0_intro. Qed.

(* ElimModal *)
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Global Instance elim_modal_wand P P' Q Q' R :
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  ElimModal P P' Q Q'  ElimModal P P' (R - Q) (R - Q').
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Proof.
  rewrite /ElimModal=> H. apply wand_intro_r.
  by rewrite wand_curry -assoc (comm _ P') -wand_curry wand_elim_l.
Qed.
Global Instance forall_modal_wand {A} P P' (Φ Ψ : A  uPred M) :
  ( x, ElimModal P P' (Φ x) (Ψ x))  ElimModal P P' ( x, Φ x) ( x, Ψ x).
Proof.
  rewrite /ElimModal=> H. apply forall_intro=> a. by rewrite (forall_elim a).
Qed.

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Global Instance elim_modal_always P Q : ElimModal ( P) P Q Q.
Proof. intros. by rewrite /ElimModal always_elim wand_elim_r. Qed.

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Global Instance elim_modal_bupd P Q : ElimModal (|==> P) P (|==> Q) (|==> Q).
Proof. by rewrite /ElimModal bupd_frame_r wand_elim_r bupd_trans. Qed.

Global Instance elim_modal_except_0 P Q : IsExcept0 Q  ElimModal ( P) P Q Q.
Proof.
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  intros. rewrite /ElimModal (except_0_intro (_ - _)).