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From iris.base_logic.lib Require Export invariants.
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From iris.algebra Require Import auth gmap agree.
From iris.base_logic Require Import big_op.
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From iris.proofmode Require Import tactics.
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Import uPred.

(** The CMRAs we need. *)
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Class boxG Σ :=
  boxG_inG :> inG Σ (prodR
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    (authR (optionUR (exclR boolC)))
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    (optionR (agreeR (laterC (iPreProp Σ))))).
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Section box_defs.
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  Context `{invG Σ, boxG Σ} (N : namespace).
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  Definition slice_name := gname.
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  Definition box_own_auth (γ : slice_name) (a : auth (option (excl bool)))
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    := own γ (a, (:option (agree (later (iPreProp Σ))))).
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  Definition box_own_prop (γ : slice_name) (P : iProp Σ) : iProp Σ :=
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    own γ (:auth (option (excl bool)), Some (to_agree (Next (iProp_unfold P)))).
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  Definition slice_inv (γ : slice_name) (P : iProp Σ) : iProp Σ :=
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    ( b, box_own_auth γ ( Excl' b)  box_own_prop γ P  if b then P else True)%I.
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  Definition slice (γ : slice_name) (P : iProp Σ) : iProp Σ :=
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    inv N (slice_inv γ P).
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  Definition box (f : gmap slice_name bool) (P : iProp Σ) : iProp Σ :=
    ( Φ : slice_name  iProp Σ,
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       (P  [ map] γ  b  f, Φ γ) 
      [ map] γ  b  f, box_own_auth γ ( Excl' b)  box_own_prop γ (Φ γ) 
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                         inv N (slice_inv γ (Φ γ)))%I.
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End box_defs.

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Instance: Params (@box_own_prop) 3.
Instance: Params (@slice_inv) 3.
Instance: Params (@slice) 5.
Instance: Params (@box) 5.
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Section box.
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Context `{invG Σ, boxG Σ} (N : namespace).
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Implicit Types P Q : iProp Σ.
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Global Instance box_own_prop_ne n γ : Proper (dist n ==> dist n) (box_own_prop γ).
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Proof. solve_proper. Qed.
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Global Instance box_inv_ne n γ : Proper (dist n ==> dist n) (slice_inv γ).
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Proof. solve_proper. Qed.
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Global Instance slice_ne n γ : Proper (dist n ==> dist n) (slice N γ).
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Proof. solve_proper. Qed.
Global Instance box_ne n f : Proper (dist n ==> dist n) (box N f).
Proof. solve_proper. Qed.
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Global Instance slice_persistent γ P : PersistentP (slice N γ P).
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Proof. apply _. Qed.

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Lemma box_own_auth_agree γ b1 b2 :
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  box_own_auth γ ( Excl' b1)  box_own_auth γ ( Excl' b2)  b1 = b2.
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Proof.
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  rewrite /box_own_prop -own_op own_valid prod_validI /= and_elim_l.
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  by iDestruct 1 as % [[[] [=]%leibniz_equiv] ?]%auth_valid_discrete.
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Qed.

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Lemma box_own_auth_update γ b1 b2 b3 :
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  box_own_auth γ ( Excl' b1)  box_own_auth γ ( Excl' b2)
  == box_own_auth γ ( Excl' b3)  box_own_auth γ ( Excl' b3).
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Proof.
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  rewrite /box_own_auth -!own_op. apply own_update, prod_update; last done.
  by apply auth_update, option_local_update, exclusive_local_update.
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Qed.

Lemma box_own_agree γ Q1 Q2 :
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  box_own_prop γ Q1  box_own_prop γ Q2   (Q1  Q2).
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Proof.
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  rewrite /box_own_prop -own_op own_valid prod_validI /= and_elim_r.
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  rewrite option_validI /= agree_validI agree_equivI later_equivI /=.
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  iIntros "#HQ". iNext. rewrite -{2}(iProp_fold_unfold Q1).
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  iRewrite "HQ". by rewrite iProp_fold_unfold.
Qed.

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Lemma box_alloc : box N  True%I.
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Proof.
  iIntros; iExists (λ _, True)%I; iSplit.
  - iNext. by rewrite big_sepM_empty.
  - by rewrite big_sepM_empty.
Qed.

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Lemma box_insert E f P Q :
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   box N f P ={E}=  γ, f !! γ = None 
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    slice N γ Q   box N (<[γ:=false]> f) (Q  P).
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Proof.
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  iDestruct 1 as (Φ) "[#HeqP Hf]".
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  iMod (own_alloc_strong ( Excl' false   Excl' false,
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    Some (to_agree (Next (iProp_unfold Q)))) (dom _ f))
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    as (γ) "[Hdom Hγ]"; first done.
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  rewrite pair_split. iDestruct "Hγ" as "[[Hγ Hγ'] #HγQ]".
  iDestruct "Hdom" as % ?%not_elem_of_dom.
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  iMod (inv_alloc N _ (slice_inv γ Q) with "[Hγ]") as "#Hinv".
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  { iNext. iExists false; eauto. }
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  iModIntro; iExists γ; repeat iSplit; auto.
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  iNext. iExists (<[γ:=Q]> Φ); iSplit.
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  - iNext. iRewrite "HeqP". by rewrite big_sepM_fn_insert'.
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  - rewrite (big_sepM_fn_insert (λ _ _ P',  _  _ _ P'  _ _ (_ _ P')))%I //.
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    iFrame; eauto.
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Qed.

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Lemma box_delete E f P Q γ :
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  N  E 
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  f !! γ = Some false 
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  slice N γ Q   box N f P ={E}=  P',
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      (P  (Q  P'))   box N (delete γ f) P'.
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Proof.
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  iIntros (??) "[#Hinv H]"; iDestruct "H" as (Φ) "[#HeqP Hf]".
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  iExists ([ map] γ'_  delete γ f, Φ γ')%I.
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  iInv N as (b) "(Hγ & #HγQ &_)" "Hclose".
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  iApply fupd_trans_frame; iFrame "Hclose"; iModIntro; iNext.
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  iDestruct (big_sepM_delete _ f _ false with "Hf")
    as "[[Hγ' #[HγΦ ?]] ?]"; first done.
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  iDestruct (box_own_agree γ Q (Φ γ) with "[#]") as "HeqQ"; first by eauto.
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  iDestruct (box_own_auth_agree γ b false with "[-]") as %->; first by iFrame.
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  iSplitL "Hγ"; last iSplit.
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  - iExists false; eauto.
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  - iNext. iRewrite "HeqP". iRewrite "HeqQ". by rewrite -big_sepM_delete.
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  - iExists Φ; eauto.
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Qed.

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Lemma box_fill E f γ P Q :
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  N  E 
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  f !! γ = Some false 
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  slice N γ Q   Q   box N f P ={E}=  box N (<[γ:=true]> f) P.
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Proof.
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  iIntros (??) "(#Hinv & HQ & H)"; iDestruct "H" as (Φ) "[#HeqP Hf]".
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  iInv N as (b') "(>Hγ & #HγQ & _)" "Hclose".
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  iDestruct (big_sepM_later _ f with "Hf") as "Hf".
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  iDestruct (big_sepM_delete _ f _ false with "Hf")
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    as "[[>Hγ' #[HγΦ Hinv']] ?]"; first done.
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  iMod (box_own_auth_update γ b' false true with "[Hγ Hγ']")
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    as "[Hγ Hγ']"; first by iFrame.
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  iMod ("Hclose" with "[Hγ HQ]"); first (iNext; iExists true; by iFrame).
  iModIntro; iNext; iExists Φ; iSplit.
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  - by rewrite big_sepM_insert_override.
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  - rewrite -insert_delete big_sepM_insert ?lookup_delete //.
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    iFrame; eauto.
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Qed.

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Lemma box_empty E f P Q γ :
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  N  E 
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  f !! γ = Some true 
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  slice N γ Q   box N f P ={E}=  Q   box N (<[γ:=false]> f) P.
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Proof.
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  iIntros (??) "[#Hinv H]"; iDestruct "H" as (Φ) "[#HeqP Hf]".
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  iInv N as (b) "(>Hγ & #HγQ & HQ)" "Hclose".
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  iDestruct (big_sepM_later _ f with "Hf") as "Hf".
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  iDestruct (big_sepM_delete _ f with "Hf")
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    as "[[>Hγ' #[HγΦ Hinv']] ?]"; first done.
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  iDestruct (box_own_auth_agree γ b true with "[-]") as %->; first by iFrame.
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  iFrame "HQ".
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  iMod (box_own_auth_update γ with "[Hγ Hγ']") as "[Hγ Hγ']"; first by iFrame.
  iMod ("Hclose" with "[Hγ]"); first (iNext; iExists false; by repeat iSplit).
  iModIntro; iNext; iExists Φ; iSplit.
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  - by rewrite big_sepM_insert_override.
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  - rewrite -insert_delete big_sepM_insert ?lookup_delete //.
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    iFrame; eauto.
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Qed.

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Lemma box_fill_all E f P :
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  N  E 
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  box N f P   P ={E}= box N (const true <$> f) P.
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Proof.
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  iIntros (?) "[H HP]"; iDestruct "H" as (Φ) "[#HeqP Hf]".
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  iExists Φ; iSplitR; first by rewrite big_sepM_fmap.
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  rewrite internal_eq_iff later_iff big_sepM_later.
  iDestruct ("HeqP" with "HP") as "HP".
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  iCombine "Hf" "HP" as "Hf".
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  rewrite big_sepM_fmap; iApply (fupd_big_sepM _ _ f).
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  iApply (big_sepM_impl _ _ f); iFrame "Hf".
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  iAlways; iIntros (γ b' ?) "[(Hγ' & #$ & #$) HΦ]".
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  iInv N as (b) "[>Hγ _]" "Hclose".
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  iMod (box_own_auth_update γ with "[Hγ Hγ']") as "[Hγ $]"; first by iFrame.
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  iApply "Hclose". iNext; iExists true. by iFrame.
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Qed.

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Lemma box_empty_all E f P :
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  N  E 
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  map_Forall (λ _, (true =)) f 
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  box N f P ={E}=  P  box N (const false <$> f) P.
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Proof.
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  iDestruct 1 as (Φ) "[#HeqP Hf]".
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  iAssert ([ map] γ↦b  f,  Φ γ  box_own_auth γ ( Excl' false) 
    box_own_prop γ (Φ γ)  inv N (slice_inv γ (Φ γ)))%I with ">[Hf]" as "[HΦ ?]".
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  { iApply (fupd_big_sepM _ _ f); iApply (big_sepM_impl _ _ f); iFrame "Hf".
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    iAlways; iIntros (γ b ?) "(Hγ' & #$ & #$)".
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    assert (true = b) as <- by eauto.
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    iInv N as (b) "(>Hγ & _ & HΦ)" "Hclose".
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    iDestruct (box_own_auth_agree γ b true with "[-]") as %->; first by iFrame.
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    iMod (box_own_auth_update γ true true false with "[Hγ Hγ']")
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      as "[Hγ $]"; first by iFrame.
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    iMod ("Hclose" with "[Hγ]"); first (iNext; iExists false; iFrame; eauto).
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    by iApply "HΦ". }
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  iModIntro; iSplitL "HΦ".
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  - rewrite internal_eq_iff later_iff big_sepM_later. by iApply "HeqP".
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  - iExists Φ; iSplit; by rewrite big_sepM_fmap.
Qed.
End box.
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Typeclasses Opaque slice box.