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Robbert Krebbers authoredRobbert Krebbers authored
one_shot.v 4.13 KiB
From iris.program_logic Require Export weakestpre hoare.
From iris.heap_lang Require Export lang.
From iris.algebra Require Import excl dec_agree csum.
From iris.heap_lang Require Import assert proofmode notation.
From iris.proofmode Require Import tactics.
Definition one_shot_example : val := λ: <>,
let: "x" := ref NONE in (
(* tryset *) (λ: "n",
CAS "x" NONE (SOME "n")),
(* check *) (λ: <>,
let: "y" := !"x" in λ: <>,
match: "y" with
NONE => #()
| SOME "n" =>
match: !"x" with
NONE => assert: #false
| SOME "m" => assert: "n" = "m"
end
end)).
Global Opaque one_shot_example.
Definition one_shotR := csumR (exclR unitC) (dec_agreeR Z).
Definition Pending : one_shotR := (Cinl (Excl ()) : one_shotR).
Definition Shot (n : Z) : one_shotR := (Cinr (DecAgree n) : one_shotR).
Class one_shotG Σ := { one_shot_inG :> inG Σ one_shotR }.
Definition one_shotΣ : gFunctors := #[GFunctor (constRF one_shotR)].
Instance subG_one_shotΣ {Σ} : subG one_shotΣ Σ → one_shotG Σ.
Proof. intros [?%subG_inG _]%subG_inv. split; apply _. Qed.
Section proof.
Context `{!heapG Σ, !one_shotG Σ} (N : namespace) (HN : heapN ⊥ N).
Definition one_shot_inv (γ : gname) (l : loc) : iProp Σ :=
(l ↦ NONEV ★ own γ Pending ∨ ∃ n : Z, l ↦ SOMEV #n ★ own γ (Shot n))%I.
Lemma wp_one_shot (Φ : val → iProp Σ) :
heap_ctx ★ (∀ f1 f2 : val,
(∀ n : Z, □ WP f1 #n {{ w, w = #true ∨ w = #false }}) ★
□ WP f2 #() {{ g, □ WP g #() {{ _, True }} }} -★ Φ (f1,f2)%V)
⊢ WP one_shot_example #() {{ Φ }}.
Proof.
iIntros "[#? Hf] /=".
rewrite /one_shot_example /=. wp_seq. wp_alloc l as "Hl". wp_let.
iVs (own_alloc Pending) as (γ) "Hγ"; first done.
iVs (inv_alloc N _ (one_shot_inv γ l) with "[Hl Hγ]") as "#HN".
{ iNext. iLeft. by iSplitL "Hl". }
iVsIntro. iApply "Hf"; iSplit.
- iIntros (n) "!#". wp_let.
iInv N as ">[[Hl Hγ]|H]" "Hclose"; last iDestruct "H" as (m) "[Hl Hγ]".
+ wp_cas_suc. iVs (own_update with "Hγ") as "Hγ".
{ by apply cmra_update_exclusive with (y:=Shot n). }
iVs ("Hclose" with "[-]"); last eauto.
iNext; iRight; iExists n; by iFrame.
+ wp_cas_fail. iVs ("Hclose" with "[-]"); last eauto.
rewrite /one_shot_inv; eauto 10.
- iIntros "!#". wp_seq. wp_bind (! _)%E.
iInv N as ">Hγ" "Hclose".
iAssert (∃ v, l ↦ v ★ ((v = NONEV ★ own γ Pending) ∨
∃ n : Z, v = SOMEV #n ★ own γ (Shot n)))%I with "[Hγ]" as "Hv".
{ iDestruct "Hγ" as "[[Hl Hγ]|Hl]"; last iDestruct "Hl" as (m) "[Hl Hγ]".
+ iExists NONEV. iFrame. eauto.
+ iExists (SOMEV #m). iFrame. eauto. }
iDestruct "Hv" as (v) "[Hl Hv]". wp_load.
iAssert (one_shot_inv γ l ★ (v = NONEV ∨ ∃ n : Z,
v = SOMEV #n ★ own γ (Shot n)))%I with "[Hl Hv]" as "[Hinv #Hv]".
{ iDestruct "Hv" as "[[% ?]|Hv]"; last iDestruct "Hv" as (m) "[% ?]"; subst.
+ iSplit. iLeft; by iSplitL "Hl". eauto.
+ iSplit. iRight; iExists m; by iSplitL "Hl". eauto. } iVs ("Hclose" with "[Hinv]") as "_"; eauto; iVsIntro.
wp_let. iVsIntro. iIntros "!#". wp_seq.
iDestruct "Hv" as "[%|Hv]"; last iDestruct "Hv" as (m) "[% Hγ']"; subst.
{ by wp_match. }
wp_match. wp_bind (! _)%E.
iInv N as ">[[Hl Hγ]|H]" "Hclose"; last iDestruct "H" as (m') "[Hl Hγ]".
{ iCombine "Hγ" "Hγ'" as "Hγ". by iDestruct (own_valid with "Hγ") as %?. }
wp_load.
iCombine "Hγ" "Hγ'" as "Hγ".
iDestruct (own_valid with "Hγ") as %[=->]%dec_agree_op_inv.
iVs ("Hclose" with "[Hl]") as "_".
{ iNext; iRight; by eauto. }
iVsIntro. wp_match. iApply wp_assert. wp_op=>?; simplify_eq/=; eauto.
Qed.
Lemma ht_one_shot (Φ : val → iProp Σ) :
heap_ctx ⊢ {{ True }} one_shot_example #()
{{ ff,
(∀ n : Z, {{ True }} Fst ff #n {{ w, w = #true ∨ w = #false }}) ★
{{ True }} Snd ff #() {{ g, {{ True }} g #() {{ _, True }} }}
}}.
Proof.
iIntros "#? !# _". iApply wp_one_shot. iSplit; first done.
iIntros (f1 f2) "[#Hf1 #Hf2]"; iSplit.
- iIntros (n) "!# _". wp_proj. iApply "Hf1".
- iIntros "!# _". wp_proj.
iApply wp_wand_l; iFrame "Hf2". by iIntros (v) "#? !# _".
Qed.
End proof.