lifting.v 3.2 KB
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From iris.program_logic Require Export weakestpre.
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From iris.program_logic Require Import ownership.
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From iris.proofmode Require Import pviewshifts.
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Section lifting.
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Context `{irisG Λ Σ}.
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Implicit Types v : val Λ.
Implicit Types e : expr Λ.
Implicit Types σ : state Λ.
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Implicit Types P Q : iProp Σ.
Implicit Types Φ : val Λ  iProp Σ.
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Lemma wp_lift_step E Φ e1 :
  to_val e1 = None 
  (|={E,}=>  σ1,  reducible e1 σ1   ownP σ1 
       e2 σ2 ef,  prim_step e1 σ1 e2 σ2 ef  ownP σ2
          ={,E}= WP e2 @ E {{ Φ }}  wp_fork ef)
   WP e1 @ E {{ Φ }}.
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Proof.
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  iIntros (?) "H". rewrite wp_unfold /wp_pre; iRight; iSplit; auto.
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  iIntros (σ1) "Hσ". iVs "H" as (σ1') "(% & >Hσf & H)".
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  iDestruct (ownP_agree σ1 σ1' with "[#]") as %<-; first by iFrame.
  iVsIntro; iSplit; [done|]; iNext; iIntros (e2 σ2 ef Hstep).
  iVs (ownP_update σ1 σ2 with "[-H]") as "[$ ?]"; first by iFrame.
  iApply "H"; eauto.
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Qed.
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Lemma wp_lift_pure_step E Φ e1 :
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  to_val e1 = None 
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  ( σ1, reducible e1 σ1) 
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  ( σ1 e2 σ2 ef, prim_step e1 σ1 e2 σ2 ef  σ1 = σ2) 
  (  e2 ef σ,  prim_step e1 σ e2 σ ef  WP e2 @ E {{ Φ }}  wp_fork ef)
   WP e1 @ E {{ Φ }}.
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Proof.
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  iIntros (He Hsafe Hstep) "H". rewrite wp_unfold /wp_pre; iRight; iSplit; auto.
  iIntros (σ1) "Hσ". iApply pvs_intro'; [set_solver|iIntros "Hclose"].
  iSplit; [done|]; iNext; iIntros (e2 σ2 ef ?).
  destruct (Hstep σ1 e2 σ2 ef); auto; subst.
  iVs "Hclose"; iVsIntro. iFrame "Hσ". iApply "H"; auto.
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Qed.
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(** Derived lifting lemmas. *)
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Lemma wp_lift_atomic_step {E Φ} e1 σ1 :
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  atomic e1 
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  reducible e1 σ1 
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   ownP σ1   ( v2 σ2 ef,
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     prim_step e1 σ1 (of_val v2) σ2 ef  ownP σ2 - (|={E}=> Φ v2)  wp_fork ef)
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   WP e1 @ E {{ Φ }}.
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Proof.
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  iIntros (Hatomic ?) "[Hσ H]".
  iApply (wp_lift_step E _ e1); eauto using reducible_not_val.
  iApply pvs_intro'; [set_solver|iIntros "Hclose"].
  iExists σ1. iFrame "Hσ"; iSplit; eauto.
  iNext; iIntros (e2 σ2 ef) "[% Hσ]".
  edestruct (Hatomic σ1 e2 σ2 ef) as [v2 <-%of_to_val]; eauto.
  iDestruct ("H" $! v2 σ2 ef with "[Hσ]") as "[HΦ $]"; first by eauto.
  iVs "Hclose". iVs "HΦ". iApply wp_value; auto using to_of_val.
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Qed.

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Lemma wp_lift_atomic_det_step {E Φ e1} σ1 v2 σ2 ef :
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  atomic e1 
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  reducible e1 σ1 
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  ( e2' σ2' ef', prim_step e1 σ1 e2' σ2' ef' 
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                  σ2 = σ2'  to_val e2' = Some v2  ef = ef') 
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   ownP σ1   (ownP σ2 - (|={E}=> Φ v2)  wp_fork ef)  WP e1 @ E {{ Φ }}.
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Proof.
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  iIntros (?? Hdet) "[Hσ1 Hσ2]". iApply (wp_lift_atomic_step _ σ1); try done.
  iFrame. iNext. iIntros (v2' σ2' ef') "[% Hσ2']".
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  edestruct Hdet as (->&->%of_to_val%(inj of_val)&->). done. by iApply "Hσ2".
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Qed.

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Lemma wp_lift_pure_det_step {E Φ} e1 e2 ef :
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  to_val e1 = None 
  ( σ1, reducible e1 σ1) 
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  ( σ1 e2' σ2 ef', prim_step e1 σ1 e2' σ2 ef'  σ1 = σ2  e2 = e2'  ef = ef')
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   (WP e2 @ E {{ Φ }}  wp_fork ef)  WP e1 @ E {{ Φ }}.
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Proof.
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  iIntros (?? Hpuredet) "?". iApply (wp_lift_pure_step E); try done.
  by intros; eapply Hpuredet. iNext. by iIntros (e' ef' σ (_&->&->)%Hpuredet).
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Qed.
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End lifting.