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From iris.program_logic Require Export weakestpre.
From iris.heap_lang Require Export lang.
From iris.heap_lang.lib.barrier Require Export barrier.
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From iris.prelude Require Import functions.
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From iris.base_logic Require Import big_op lib.saved_prop lib.sts.
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From iris.heap_lang Require Import proofmode.
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From iris.heap_lang.lib.barrier Require Import protocol.
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Set Default Proof Using "Type*".
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(** The CMRAs/functors we need. *)
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(* Not bundling heapG, as it may be shared with other users. *)
Class barrierG Σ := BarrierG {
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  barrier_stsG :> stsG Σ sts;
  barrier_savedPropG :> savedPropG Σ idCF;
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}.
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Definition barrierΣ : gFunctors := #[stsΣ sts; savedPropΣ idCF].
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Instance subG_barrierΣ {Σ} : subG barrierΣ Σ  barrierG Σ.
Proof. intros [? [? _]%subG_inv]%subG_inv. split; apply _. Qed.
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(** Now we come to the Iris part of the proof. *)
Section proof.
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Context `{!heapG Σ, !barrierG Σ} (N : namespace).
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Implicit Types I : gset gname.
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Definition ress (P : iProp Σ) (I : gset gname) : iProp Σ :=
  ( Ψ : gname  iProp Σ,
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     (P - [ set] i  I, Ψ i)  [ set] i  I, saved_prop_own i (Ψ i))%I.
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Coercion state_to_val (s : state) : val :=
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  match s with State Low _ => #false | State High _ => #true end.
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Arguments state_to_val !_ / : simpl nomatch.
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Definition state_to_prop (s : state) (P : iProp Σ) : iProp Σ :=
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  match s with State Low _ => P | State High _ => True%I end.
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Arguments state_to_prop !_ _ / : simpl nomatch.
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Definition barrier_inv (l : loc) (P : iProp Σ) (s : state) : iProp Σ :=
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  (l  s  ress (state_to_prop s P) (state_I s))%I.
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Definition barrier_ctx (γ : gname) (l : loc) (P : iProp Σ) : iProp Σ :=
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  sts_ctx γ N (barrier_inv l P).
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Definition send (l : loc) (P : iProp Σ) : iProp Σ :=
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  ( γ, barrier_ctx γ l P  sts_ownS γ low_states {[ Send ]})%I.
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Definition recv (l : loc) (R : iProp Σ) : iProp Σ :=
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  ( γ P Q i,
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    barrier_ctx γ l P  sts_ownS γ (i_states i) {[ Change i ]} 
    saved_prop_own i Q   (Q - R))%I.
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Global Instance barrier_ctx_persistent (γ : gname) (l : loc) (P : iProp Σ) :
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  PersistentP (barrier_ctx γ l P).
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Proof. apply _. Qed.

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(** Setoids *)
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Global Instance ress_ne n : Proper (dist n ==> (=) ==> dist n) ress.
Proof. solve_proper. Qed.
Global Instance state_to_prop_ne n s :
  Proper (dist n ==> dist n) (state_to_prop s).
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Proof. solve_proper. Qed.
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Global Instance barrier_inv_ne n l :
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  Proper (dist n ==> eq ==> dist n) (barrier_inv l).
Proof. solve_proper. Qed.
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Global Instance barrier_ctx_ne n γ l : Proper (dist n ==> dist n) (barrier_ctx γ l).
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Proof. solve_proper. Qed. 
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Global Instance send_ne n l : Proper (dist n ==> dist n) (send l).
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Proof. solve_proper. Qed.
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Global Instance recv_ne n l : Proper (dist n ==> dist n) (recv l).
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Proof. solve_proper. Qed.
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(** Helper lemmas *)
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Lemma ress_split i i1 i2 Q R1 R2 P I :
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  i  I  i1  I  i2  I  i1  i2 
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  saved_prop_own i Q - saved_prop_own i1 R1 - saved_prop_own i2 R2 -
  (Q - R1  R2) - ress P I -
  ress P ({[i1;i2]}  I  {[i]}).
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Proof.
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  iIntros (????) "#HQ #H1 #H2 HQR"; iDestruct 1 as (Ψ) "[HPΨ HΨ]".
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  iDestruct (big_sepS_delete _ _ i with "HΨ") as "[#HΨi HΨ]"; first done.
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  iExists (<[i1:=R1]> (<[i2:=R2]> Ψ)). iSplitL "HQR HPΨ".
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  - iPoseProof (saved_prop_agree i Q (Ψ i) with "[#]") as "Heq"; first by iSplit.
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    iNext. iRewrite "Heq" in "HQR". iIntros "HP". iSpecialize ("HPΨ" with "HP").
    iDestruct (big_sepS_delete _ _ i with "HPΨ") as "[HΨ HPΨ]"; first done.
    iDestruct ("HQR" with "HΨ") as "[HR1 HR2]".
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    rewrite -assoc_L !big_sepS_fn_insert'; [|abstract set_solver ..].
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    by iFrame.
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  - rewrite -assoc_L !big_sepS_fn_insert; [|abstract set_solver ..]. eauto.
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Qed.
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(** Actual proofs *)
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Lemma newbarrier_spec (P : iProp Σ) :
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  {{{ True }}} newbarrier #() {{{ l, RET #l; recv l P  send l P }}}.
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Proof.
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  iIntros (Φ) "HΦ".
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  rewrite -wp_fupd /newbarrier /=. wp_seq. wp_alloc l as "Hl".
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  iApply ("HΦ" with ">[-]").
  iMod (saved_prop_alloc (F:=idCF) P) as (γ) "#?".
  iMod (sts_alloc (barrier_inv l P) _ N (State Low {[ γ ]}) with "[-]")
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    as (γ') "[#? Hγ']"; eauto.
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  { iNext. rewrite /barrier_inv /=. iFrame.
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    iExists (const P). rewrite !big_sepS_singleton /=. eauto. }
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  iAssert (barrier_ctx γ' l P)%I as "#?".
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  { done. }
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  iAssert (sts_ownS γ' (i_states γ) {[Change γ]}
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     sts_ownS γ' low_states {[Send]})%I with ">[-]" as "[Hr Hs]".
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  { iApply sts_ownS_op; eauto using i_states_closed, low_states_closed.
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    - set_solver.
    - iApply (sts_own_weaken with "Hγ'");
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        auto using sts.closed_op, i_states_closed, low_states_closed;
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        abstract set_solver. }
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  iModIntro. iSplitL "Hr".
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  - iExists γ', P, P, γ. iFrame. auto.
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  - rewrite /send. auto.
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Qed.

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Lemma signal_spec l P :
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  {{{ send l P  P }}} signal #l {{{ RET #(); True }}}.
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Proof.
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  rewrite /signal /=.
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  iIntros (Φ) "[Hs HP] HΦ". iDestruct "Hs" as (γ) "[#Hsts Hγ]". wp_let.
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  iMod (sts_openS (barrier_inv l P) _ _ γ with "[Hγ]")
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    as ([p I]) "(% & [Hl Hr] & Hclose)"; eauto.
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  destruct p; [|done]. wp_store.
  iSpecialize ("HΦ" with "[#]") => //. iFrame "HΦ".
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  iMod ("Hclose" $! (State High I) ( : set token) with "[-]"); last done.
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  iSplit; [iPureIntro; by eauto using signal_step|].
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  rewrite /barrier_inv /ress /=. iNext. iFrame "Hl".
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  iDestruct "Hr" as (Ψ) "[Hr Hsp]"; iExists Ψ; iFrame "Hsp".
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  iNext. iIntros "_"; by iApply "Hr".
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Qed.

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Lemma wait_spec l P:
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  {{{ recv l P }}} wait #l {{{ RET #(); P }}}.
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Proof.
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  rename P into R.
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  iIntros (Φ) "Hr HΦ"; iDestruct "Hr" as (γ P Q i) "(#Hsts & Hγ & #HQ & HQR)".
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  iLöb as "IH". wp_rec. wp_bind (! _)%E.
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  iMod (sts_openS (barrier_inv l P) _ _ γ with "[Hγ]")
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    as ([p I]) "(% & [Hl Hr] & Hclose)"; eauto.
  wp_load. destruct p.
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  - iMod ("Hclose" $! (State Low I) {[ Change i ]} with "[Hl Hr]") as "Hγ".
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    { iSplit; first done. rewrite /barrier_inv /=. by iFrame. }
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    iAssert (sts_ownS γ (i_states i) {[Change i]})%I with ">[Hγ]" as "Hγ".
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    { iApply (sts_own_weaken with "Hγ"); eauto using i_states_closed. }
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    iModIntro. wp_if.
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    iApply ("IH" with "Hγ [HQR] [HΦ]"); auto.
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  - (* a High state: the comparison succeeds, and we perform a transition and
    return to the client *)
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    iDestruct "Hr" as (Ψ) "[HΨ Hsp]".
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    iDestruct (big_sepS_delete _ _ i with "Hsp") as "[#HΨi Hsp]"; first done.
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    iAssert ( Ψ i   [ set] j  I  {[i]}, Ψ j)%I with "[HΨ]" as "[HΨ HΨ']".
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    { iNext. iApply (big_sepS_delete _ _ i); first done. by iApply "HΨ". }
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    iMod ("Hclose" $! (State High (I  {[ i ]})) ( : set token) with "[HΨ' Hl Hsp]").
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    { iSplit; [iPureIntro; by eauto using wait_step|].
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      rewrite /barrier_inv /=. iNext. iFrame "Hl". iExists Ψ; iFrame. auto. }
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    iPoseProof (saved_prop_agree i Q (Ψ i) with "[#]") as "Heq"; first by auto.
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    iModIntro. wp_if.
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    iApply "HΦ". iApply "HQR". by iRewrite "Heq".
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Qed.

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Lemma recv_split E l P1 P2 :
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  N  E  recv l (P1  P2) ={E}= recv l P1  recv l P2.
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Proof.
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  rename P1 into R1; rename P2 into R2.
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  iIntros (?). iDestruct 1 as (γ P Q i) "(#Hsts & Hγ & #HQ & HQR)".
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  iMod (sts_openS (barrier_inv l P) _ _ γ with "[Hγ]")
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    as ([p I]) "(% & [Hl Hr] & Hclose)"; eauto.
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  iMod (saved_prop_alloc_strong (R1: %CF (iProp Σ)) I) as (i1) "[% #Hi1]".
  iMod (saved_prop_alloc_strong (R2: %CF (iProp Σ)) (I  {[i1]}))
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    as (i2) "[Hi2' #Hi2]"; iDestruct "Hi2'" as %Hi2.
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  rewrite ->not_elem_of_union, elem_of_singleton in Hi2; destruct Hi2.
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  iMod ("Hclose" $! (State p ({[i1; i2]}  I  {[i]}))
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                   {[Change i1; Change i2 ]} with "[-]") as "Hγ".
  { iSplit; first by eauto using split_step.
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    rewrite /barrier_inv /=. iNext. iFrame "Hl".
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    by iApply (ress_split with "HQ Hi1 Hi2 HQR"). }
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  iAssert (sts_ownS γ (i_states i1) {[Change i1]}
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     sts_ownS γ (i_states i2) {[Change i2]})%I with ">[-]" as "[Hγ1 Hγ2]".
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  { iApply sts_ownS_op; eauto using i_states_closed, low_states_closed.
    - abstract set_solver.
    - iApply (sts_own_weaken with "Hγ");
        eauto using sts.closed_op, i_states_closed.
      abstract set_solver. }
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  iModIntro; iSplitL "Hγ1".
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  - iExists γ, P, R1, i1. iFrame; auto.
  - iExists γ, P, R2, i2. iFrame; auto.
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Qed.

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Lemma recv_weaken l P1 P2 : (P1 - P2) - recv l P1 - recv l P2.
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Proof.
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  iIntros "HP". iDestruct 1 as (γ P Q i) "(#Hctx&Hγ&Hi&HP1)".
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  iExists γ, P, Q, i. iFrame "Hctx Hγ Hi".
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  iNext. iIntros "HQ". by iApply "HP"; iApply "HP1".
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Qed.
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Lemma recv_mono l P1 P2 : (P1  P2)  recv l P1  recv l P2.
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Proof. iIntros (HP) "H". iApply (recv_weaken with "[] H"). iApply HP. Qed.
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End proof.
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Typeclasses Opaque barrier_ctx send recv.