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Commit 126aef31 authored by Robbert Krebbers's avatar Robbert Krebbers
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Cancelable invariants.

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......@@ -85,6 +85,7 @@ program_logic/boxes.v
program_logic/counter_examples.v
program_logic/iris.v
program_logic/thread_local.v
program_logic/cancelable_invariants.v
heap_lang/lang.v
heap_lang/tactics.v
heap_lang/wp_tactics.v
......
program_logic/cancelable_invariants.v 0 → 100644
View file @ 126aef31
From iris.program_logic Require Export invariants.
From iris.algebra Require Export frac.
From iris.proofmode Require Import invariants tactics.
Import uPred.
Class cinvG Σ := cinv_inG :> inG Σ fracR.
Section defs.
Context `{irisG Λ Σ, cinvG Σ}.
Definition cinv_own (γ : gname) (p : frac) : iProp Σ := own γ p.
Definition cinv (N : namespace) (γ : gname) (P : iProp Σ) : iProp Σ :=
inv N (P cinv_own γ 1%Qp)%I.
End defs.
Instance: Params (@cinv) 6.
Typeclasses Opaque cinv_own cinv.
Section proofs.
Context `{irisG Λ Σ, cinvG Σ}.
Global Instance cinv_own_timeless γ p : TimelessP (cinv_own γ p).
Proof. rewrite /cinv_own; apply _. Qed.
Global Instance cinv_ne N γ n : Proper (dist n ==> dist n) (cinv N γ).
Proof. solve_proper. Qed.
Global Instance cinv_proper N γ : Proper (() ==> ()) (cinv N γ).
Proof. apply (ne_proper _). Qed.
Global Instance cinv_persistent N γ P : PersistentP (cinv N γ P).
Proof. rewrite /cinv; apply _. Qed.
Lemma cinv_own_op γ q1 q2 :
cinv_own γ q1 cinv_own γ q2 cinv_own γ (q1 + q2).
Proof. by rewrite /cinv_own own_op. Qed.
Lemma cinv_own_half γ q : cinv_own γ (q/2) cinv_own γ (q/2) cinv_own γ q.
Proof. by rewrite cinv_own_op Qp_div_2. Qed.
Lemma cinv_own_valid γ q1 q2 : cinv_own γ q1 cinv_own γ q2 (q1 + q2)%Qp.
Proof. rewrite /cinv_own -own_op own_valid. by iIntros "% !%". Qed.
Lemma cinv_own_1_l γ q : cinv_own γ 1 cinv_own γ q False.
Proof. rewrite cinv_own_valid. by iIntros (?%(exclusive_l 1%Qp)). Qed.
Lemma cinv_alloc E N P : P ={E}=> γ, cinv N γ P cinv_own γ 1.
Proof.
rewrite /cinv /cinv_own. iIntros "HP".
iVs (own_alloc 1%Qp) as (γ) "H1"; first done.
iVs (inv_alloc N _ (P own γ 1%Qp)%I with "[HP]"); eauto.
Qed.
Lemma cinv_cancel E N γ P :
nclose N E cinv N γ P cinv_own γ 1 ={E}= P.
Proof.
rewrite /cinv. iIntros (?) "#Hinv Hγ".
iInv N as "[$|>Hγ']" "Hclose"; first iApply "Hclose"; eauto.
iDestruct (cinv_own_1_l with "[Hγ Hγ']") as %[]. by iFrame.
Qed.
Lemma cinv_open E N γ p P :
nclose N E
cinv N γ P cinv_own γ p ={E,EN}= P cinv_own γ p ( P ={EN,E}= True).
Proof.
rewrite /cinv. iIntros (?) "#Hinv Hγ".
iInv N as "[$|>Hγ']" "Hclose".
- iIntros "!==> {$Hγ} HP". iApply "Hclose"; eauto.
- iDestruct (cinv_own_1_l with "[Hγ Hγ']") as %[]. by iFrame.
Qed.
End proofs.
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