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181 lines
6.5 KiB
181 lines
6.5 KiB
11 months ago
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From stdpp Require Import prelude.
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From iris Require Import prelude.
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From semantics.ts.systemf Require Import lang.
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From semantics.lib Require Import maps.
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Fixpoint subst_map (xs : gmap string expr) (e : expr) : expr :=
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match e with
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| Lit l => Lit l
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| Var y => match xs !! y with Some es => es | _ => Var y end
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| App e1 e2 => App (subst_map xs e1) (subst_map xs e2)
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| Lam x e => Lam x (subst_map (binder_delete x xs) e)
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| UnOp op e => UnOp op (subst_map xs e)
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| BinOp op e1 e2 => BinOp op (subst_map xs e1) (subst_map xs e2)
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| If e0 e1 e2 => If (subst_map xs e0) (subst_map xs e1) (subst_map xs e2)
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| TApp e => TApp (subst_map xs e)
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| TLam e => TLam (subst_map xs e)
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| Pack e => Pack (subst_map xs e)
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| Unpack x e1 e2 => Unpack x (subst_map xs e1) (subst_map (binder_delete x xs) e2)
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| Pair e1 e2 => Pair (subst_map xs e1) (subst_map xs e2)
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| Fst e => Fst (subst_map xs e)
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| Snd e => Snd (subst_map xs e)
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| InjL e => InjL (subst_map xs e)
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| InjR e => InjR (subst_map xs e)
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| Case e e1 e2 => Case (subst_map xs e) (subst_map xs e1) (subst_map xs e2)
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end.
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Lemma subst_map_empty e :
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subst_map ∅ e = e.
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Proof.
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induction e; simpl; f_equal; eauto.
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all: destruct x; simpl; [done | by rewrite !delete_empty..].
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Qed.
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Lemma subst_map_is_closed X e xs :
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is_closed X e →
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(∀ x : string, x ∈ dom xs → x ∉ X) →
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subst_map xs e = e.
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Proof.
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intros Hclosed Hd.
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induction e in xs, X, Hd, Hclosed |-*; simpl in *;try done.
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all: repeat match goal with
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| H : Is_true (_ && _) |- _ => apply andb_True in H as [ ? ? ]
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end.
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{ (* Var *)
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apply bool_decide_spec in Hclosed.
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assert (xs !! x = None) as ->; last done.
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destruct (xs !! x) as [s | ] eqn:Helem; last done.
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exfalso; eapply Hd; last apply Hclosed.
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apply elem_of_dom; eauto.
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}
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{ (* lambdas *)
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erewrite IHe; [done | done |].
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intros y. destruct x as [ | x]; first apply Hd.
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simpl.
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rewrite dom_delete elem_of_difference not_elem_of_singleton.
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intros [Hnx%Hd Hneq]. rewrite elem_of_cons. intros [? | ?]; done.
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}
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8: { (* Unpack *)
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erewrite IHe1; [ | done | done].
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erewrite IHe2; [ done | done | ].
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intros y. destruct x as [ | x]; first apply Hd.
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simpl.
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rewrite dom_delete elem_of_difference not_elem_of_singleton.
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intros [Hnx%Hd Hneq]. rewrite elem_of_cons. intros [? | ?]; done.
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}
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(* all other cases *)
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all: repeat match goal with
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| H : ∀ _ _, _ → _ → subst_map _ _ = _ |- _ => erewrite H; clear H
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end; done.
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Qed.
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Lemma subst_map_subst map x (e e' : expr) :
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is_closed [] e' →
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subst_map map (subst x e' e) = subst_map (<[x:=e']>map) e.
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Proof.
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intros He'.
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revert x map; induction e; intros xx map; simpl;
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try (f_equal; eauto).
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- case_decide.
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+ simplify_eq/=. rewrite lookup_insert.
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rewrite (subst_map_is_closed []); [done | apply He' | ].
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intros ? ?. apply not_elem_of_nil.
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+ rewrite lookup_insert_ne; done.
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- destruct x; simpl; first done.
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+ case_decide.
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* simplify_eq/=. by rewrite delete_insert_delete.
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* rewrite delete_insert_ne; last by congruence. done.
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- destruct x; simpl; first done.
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+ case_decide.
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* simplify_eq/=. by rewrite delete_insert_delete.
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* rewrite delete_insert_ne; last by congruence. done.
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Qed.
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Definition subst_is_closed (X : list string) (map : gmap string expr) :=
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∀ x e, map !! x = Some e → closed X e.
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Lemma subst_is_closed_subseteq X map1 map2 :
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map1 ⊆ map2 → subst_is_closed X map2 → subst_is_closed X map1.
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Proof.
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intros Hsub Hclosed2 x e Hl. eapply Hclosed2, map_subseteq_spec; done.
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Qed.
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Lemma subst_subst_map x es map e :
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subst_is_closed [] map →
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subst x es (subst_map (delete x map) e) =
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subst_map (<[x:=es]>map) e.
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Proof.
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revert map es x; induction e; intros map v0 xx Hclosed; simpl;
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try (f_equal; eauto).
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- destruct (decide (xx=x)) as [->|Hne].
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+ rewrite lookup_delete // lookup_insert //. simpl.
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rewrite decide_True //.
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+ rewrite lookup_delete_ne // lookup_insert_ne //.
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destruct (_ !! x) as [rr|] eqn:Helem.
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* apply Hclosed in Helem.
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by apply subst_is_closed_nil.
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* simpl. rewrite decide_False //.
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- destruct x; simpl; first by auto.
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case_decide.
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+ simplify_eq. rewrite delete_idemp delete_insert_delete. done.
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+ rewrite delete_insert_ne //; last congruence. rewrite delete_commute. apply IHe.
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eapply subst_is_closed_subseteq; last done.
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apply map_delete_subseteq.
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- destruct x; simpl; first by auto.
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case_decide.
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+ simplify_eq. rewrite delete_idemp delete_insert_delete. done.
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+ rewrite delete_insert_ne //; last congruence. rewrite delete_commute. apply IHe2.
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eapply subst_is_closed_subseteq; last done.
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apply map_delete_subseteq.
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Qed.
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Lemma subst'_subst_map b (es : expr) map e :
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subst_is_closed [] map →
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subst' b es (subst_map (binder_delete b map) e) =
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subst_map (binder_insert b es map) e.
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Proof.
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destruct b; first done.
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apply subst_subst_map.
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Qed.
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Lemma closed_subst_weaken e map X Y :
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subst_is_closed [] map →
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(∀ x, x ∈ X → x ∉ dom map → x ∈ Y) →
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closed X e →
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closed Y (subst_map map e).
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Proof.
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induction e in X, Y, map |-*; rewrite /closed; simpl; intros Hmclosed Hsub Hcl; first done.
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all: repeat match goal with
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| H : Is_true (_ && _) |- _ => apply andb_True in H as [ ? ? ]
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end.
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{ (* vars *)
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destruct (map !! x) as [es | ] eqn:Heq.
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+ apply is_closed_weaken_nil. by eapply Hmclosed.
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+ apply bool_decide_pack. apply Hsub; first by eapply bool_decide_unpack.
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by apply not_elem_of_dom.
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}
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{ (* lambdas *)
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eapply IHe; last done.
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+ eapply subst_is_closed_subseteq; last done.
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destruct x; first done. apply map_delete_subseteq.
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+ intros y. destruct x as [ | x]; first by apply Hsub.
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rewrite !elem_of_cons. intros [-> | Hy] Hn; first by left.
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destruct (decide (y = x)) as [ -> | Hneq]; first by left.
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right. eapply Hsub; first done. set_solver.
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}
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8: { (* unpack *)
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apply andb_True; split; first naive_solver.
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eapply IHe2; last done.
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+ eapply subst_is_closed_subseteq; last done.
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destruct x; first done. apply map_delete_subseteq.
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+ intros y. destruct x as [ | x]; first by apply Hsub.
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rewrite !elem_of_cons. intros [-> | Hy] Hn; first by left.
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destruct (decide (y = x)) as [ -> | Hneq]; first by left.
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right. eapply Hsub; first done. set_solver.
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}
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(* all other cases *)
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all: repeat match goal with
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| |- Is_true (_ && _) => apply andb_True; split
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end.
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all: naive_solver.
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Qed.
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