work on soundness proofs & fix bug in translate_typing
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2 changed files with 163 additions and 232 deletions
327
coq/soundness.v
327
coq/soundness.v
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@ -22,9 +22,24 @@ Proof.
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- apply T_Let with (σ:=σ0).
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apply IHexpr_type1.
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admit.
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Admitted.
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Lemma typing_subst : forall Γ x σ s e τ,
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(ctx_assign x σ Γ) |- e \is τ ->
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Γ |- s \is σ ->
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Γ |- (expr_subst x s e) \is τ.
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Proof.
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Admitted.
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Lemma typing_tsubst : forall Γ α σ e τ,
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Γ |- e \is τ ->
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Γ |- (expr_specialize α σ e) \is (type_subst α σ τ).
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Proof.
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Admitted.
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Lemma map_type : forall Γ,
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Γ |- [{ %"map"% }] \is [<
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∀"σ",∀"τ", (%"σ"% -> %"τ"%) -> [%"σ"%] -> [%"τ"%]
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@ -32,6 +47,17 @@ Lemma map_type : forall Γ,
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Proof.
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Admitted.
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Lemma specialized_map_type : forall Γ τ τ',
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Γ |- [{ %"map"% # τ # τ' }] \is [<
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(τ -> τ') -> [τ] -> [τ']
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>].
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Proof.
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Admitted.
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(* morphism has valid typing *)
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Lemma morphism_path_solves_type : forall Γ τ τ' m,
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(translate_morphism_path Γ τ τ' m) ->
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Γ |- m \is (type_morph τ τ')
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@ -86,75 +112,100 @@ Proof.
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apply T_App with (σ':=(type_spec (type_id "Seq") τ)) (σ:=(type_spec (type_id "Seq") τ)).
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apply T_App with (σ':=(type_fun τ τ')) (σ:=(type_fun τ τ')).
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set (k:=[< (%"σ"% -> %"τ"%) -> <$"Seq"$ %"σ"%> -> <$"Seq"$ %"τ"%> >]).
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set (k1:=[< (τ -> %"τ"%) -> <$"Seq"$ τ> -> <$"Seq"$ %"τ"%> >]).
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set (k2:=[< (τ -> τ') -> <$"Seq"$ τ> -> <$"Seq"$ τ'> >]).
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set (P:=(type_subst "τ" τ' k1) = k2).
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(* apply T_TypeApp with (α:="τ"%string) (τ:=k2).*)
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(* apply T_TypeApp with (α:="τ"%string) (τ:=(type_subst "τ" τ' k1)).*)
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(*
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apply map_type.
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apply TSubst_UnivReplace.
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admit.
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admit.
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apply TSubst_UnivReplace.
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apply T_MorphFun.
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apply specialized_map_type.
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apply typing_weakening.
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apply T_MorphFun.
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apply IHtranslate_morphism_path.
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apply M_Sub, TSubRepr_Refl, TEq_Refl.
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apply T_Var.
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apply C_take.
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apply M_Sub, TSubRepr_Refl, TEq_Refl.
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*)
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Admitted.
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apply id_morphism_path.
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auto using T_Var, C_take.
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apply id_morphism_path.
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Qed.
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(* reduction step preserves well-typedness *)
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Lemma preservation : forall Γ e e' τ,
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~(is_value e) ->
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(Γ |- e \is τ) ->
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(e -->β e') ->
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(Γ |- e' \is τ)
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.
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Proof.
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intros.
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induction e.
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intros Γ e e' τ Typ Red.
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generalize dependent e'.
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induction Typ; intros e' Red.
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(* `e` is Variable *)
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contradict H.
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apply V_Abs, VAbs_Var.
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- inversion Red.
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(* `e` is Let *)
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- inversion Red.
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subst.
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apply typing_subst with (σ:=σ).
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auto.
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auto.
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(* `e` is Type-Abstraction *)
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contradict H.
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apply V_Abs, VAbs_TypAbs.
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- inversion Red.
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subst.
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apply T_TypeAbs.
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auto.
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(* `e` is Type-Application *)
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- inversion Red.
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admit.
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(*
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apply typing_tsubst.
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admit.
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*)
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(* `e` is Abstraction *)
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contradict H.
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apply V_Abs, VAbs_Abs.
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(* `e` is abstraction *)
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- inversion Red.
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(* `e` is morphism *)
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contradict H.
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apply V_Abs, VAbs_Morph.
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- inversion Red.
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(* `e` is Application *)
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admit.
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- inversion Red.
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(* `e` is Let-Binding *)
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admit.
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* apply T_App with (σ':=σ') (σ:=σ).
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apply IHTyp1.
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auto. auto. auto.
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(* `e` is Ascension *)
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* apply T_App with (σ':=σ') (σ:=σ).
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auto using IHTyp2.
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auto. auto.
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* apply typing_subst with (σ:=σ').
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subst.
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admit.
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auto.
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* apply typing_subst with (σ:=σ').
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admit.
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auto.
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(* `e` is Morphism *)
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- auto using T_MorphFun.
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(* `e` is Ascend *)
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- admit.
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(*
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apply IHexpr_type.
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inversion Red.
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*)
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(* `e` is Descension *)
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- intros.
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apply T_DescendImplicit with (τ:=τ).
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auto. auto.
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(* `e` is descension *)
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- apply T_DescendImplicit with (τ:=τ).
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apply IHTyp.
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admit.
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auto.
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Admitted.
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(* translation of expression preserves typing *)
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@ -164,170 +215,46 @@ Lemma translation_preservation : forall Γ e e' τ,
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(Γ |- e' \is τ)
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.
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Proof.
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intros.
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induction H0.
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intros Γ e e' τ Typ Transl.
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generalize dependent e'.
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intros e' Transl.
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induction Transl.
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(* e is Variable *)
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apply H.
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- apply H.
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(* e is Let-Binding *)
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apply T_Let with (τ:=τ) (σ:=σ).
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apply IHtranslate_typing1.
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apply H0.
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apply IHtranslate_typing2.
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apply H1.
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- apply T_Let with (τ:=τ) (σ:=σ).
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auto. auto.
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(* e is Type-Abstraction *)
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apply T_TypeAbs.
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apply IHtranslate_typing.
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apply H0.
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- auto using T_TypeAbs.
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(* e is Type-Application *)
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- apply T_TypeApp.
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admit.
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(* e is Abstraction *)
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apply T_Abs.
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apply IHtranslate_typing.
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apply H0.
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(* e is Morphism-Abstraction *)
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apply T_MorphAbs.
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apply IHtranslate_typing.
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apply H0.
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- auto using T_Abs.
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- auto using T_MorphAbs.
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(* e is Application *)
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apply T_App with (σ':=σ) (σ:=σ) (τ:=τ).
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apply IHtranslate_typing1.
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apply H0.
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induction H3.
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(* Repr-Subtype *)
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apply T_App with (σ':=τ0) (σ:=τ0) (τ:=τ').
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- apply T_App with (σ':=σ) (σ:=σ) (τ:=τ).
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auto.
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apply T_App with (σ':=σ') (σ:=σ') (τ:=σ).
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apply T_MorphFun.
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apply T_MorphAbs.
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apply T_Descend with (τ:=τ0).
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apply T_Var.
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apply C_take.
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apply H3.
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apply T_DescendImplicit with (τ:=τ0).
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apply IHtranslate_typing2.
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apply H1.
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apply TSubRepr_Refl, TEq_Refl.
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apply M_Sub, TSubRepr_Refl, TEq_Refl.
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(* Lifted Morphism *)
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apply T_App with (σ':=(type_ladder σ τ0)) (σ:=(type_ladder σ τ0)) (τ:=(type_ladder σ τ')).
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apply T_MorphFun.
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apply T_MorphAbs.
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apply T_Ascend with (τ:=τ').
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apply T_App with (σ':=τ0) (σ:=τ0) (τ:=τ').
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apply T_MorphFun.
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apply typing_weakening.
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apply morphism_path_solves_type.
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apply H4.
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apply T_Descend with (τ:=(type_ladder σ τ0)).
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apply T_Var.
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apply C_take.
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apply TSubRepr_Ladder, TSubRepr_Refl, TEq_Refl.
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apply M_Sub, TSubRepr_Refl, TEq_Refl.
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apply IHtranslate_typing2.
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apply H1.
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apply M_Sub, TSubRepr_Refl, TEq_Refl.
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(* argument coecrion is single function variable *)
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apply T_App with (σ':= τ0) (σ:=τ0).
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apply T_MorphFun.
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apply T_Var.
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apply H3.
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apply IHtranslate_typing2.
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apply H1.
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(* lemma: every context implies identity morphism *)
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apply M_Sub, TSubRepr_Refl, TEq_Refl.
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(* argument coecrion is chain of coercions *)
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apply T_App with (σ':=τ0) (σ:=τ0).
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apply T_MorphFun.
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apply T_MorphAbs.
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apply T_App with (σ':=τ') (σ:=τ').
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apply T_MorphFun.
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apply typing_weakening.
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apply morphism_path_solves_type.
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apply H3_0.
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apply T_App with (σ':=τ0) (σ:=τ0).
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apply T_MorphFun.
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apply typing_weakening.
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apply morphism_path_solves_type.
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apply H3_.
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apply T_Var.
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apply C_take.
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(* lemma: every context implies identity morphism *)
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apply M_Sub, TSubRepr_Refl, TEq_Refl.
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(* lemma: every context implies identity morphism *)
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apply M_Sub, TSubRepr_Refl, TEq_Refl.
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apply IHtranslate_typing2.
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apply H1.
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(* lemma: every context implies identity morphism *)
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apply M_Sub, TSubRepr_Refl, TEq_Refl.
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(* argument coercion is is map *)
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(*
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apply T_App with (σ':=(type_spec (type_id "Seq") τ0)) (σ:=(type_spec (type_id "Seq") τ0)).
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apply T_MorphFun.
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apply T_MorphAbs.
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apply T_App with (σ':=(type_spec (type_id "Seq") τ0)) (σ:=(type_spec (type_id "Seq") τ0)).
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apply T_App with (σ':=(type_fun τ0 τ')) (σ:=(type_fun τ0 τ')).
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apply T_TypeApp with
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(α:="T2"%string)
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(e:=(expr_ty_app (expr_var "map") τ0))
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(τ:=(type_fun
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(type_fun τ0 τ')
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(type_fun
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(type_spec (type_id "Seq") τ0)
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(type_spec (type_id "Seq") τ')))).
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apply T_TypeApp with
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(α:="T1"%string)
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(e:=(expr_var "map"))
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(τ:=(type_univ "T2"
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(type_fun
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(type_fun τ0 τ')
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(type_fun
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(type_spec (type_id "Seq") (type_var "T1"))
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(type_spec (type_id "Seq") (type_var "T2")))))).
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apply T_Var.
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admit.
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apply TSubst_VarReplace.
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apply TSubst_UnivReplace.
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*)
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admit.
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(* argument coercion *)
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apply M_Sub, TSubRepr_Refl, TEq_Refl.
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(* end case `e application` *)
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auto. auto.
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apply id_morphism_path.
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apply id_morphism_path.
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(* e is Morphism *)
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apply T_MorphFun.
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apply IHtranslate_typing.
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apply H0.
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- auto using T_MorphFun.
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(* e is Ascension *)
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apply T_Ascend.
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apply IHtranslate_typing.
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apply H0.
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- auto using T_Ascend.
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(* e is Desecension *)
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apply T_Descend with (τ:=τ).
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apply IHtranslate_typing.
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apply H0.
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apply H1.
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- apply T_Descend with (τ:=τ).
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auto. auto.
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Admitted.
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(* e is stuck when it is neither a value, nor can it be reduced *)
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@ -346,6 +273,8 @@ Lemma progress :
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Proof.
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Admitted.
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(* every well-typed expression is translated,
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* such that it be reduced to a value
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*)
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@ -357,20 +286,21 @@ Theorem soundness :
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.
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Proof.
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intros.
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induction H0.
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(* `e` is Variable *)
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induction H0.
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exists (expr_var x).
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- exists (expr_var x).
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split. apply Multi_Refl.
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split. apply V_Abs,VAbs_Var.
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apply H.
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(* `e` is Let-Binding *)
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exists (expr_subst x e' t').
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- exists (expr_subst x e' t').
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split.
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apply Multi_Step with (y:=(expr_subst x e' t')).
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apply E_Let with (x:=x) (a:=e') (e:=t').
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apply Multi_Refl.
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admit.
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(*
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split.
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unfold expr_subst.
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@ -381,10 +311,9 @@ Proof.
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unfold expr_subst.
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apply E_Let.
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*)
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admit.
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(* `e` is Type-Abstraction *)
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exists (expr_ty_abs α e').
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- exists (expr_ty_abs α e').
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split.
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apply Multi_Refl.
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split.
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@ -395,10 +324,10 @@ Proof.
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apply H1.
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(* `e` is Type-Application *)
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admit.
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- admit.
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(* `e`is Abstraction *)
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exists (expr_abs x σ e').
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- exists (expr_abs x σ e').
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split. apply Multi_Refl.
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split. apply V_Abs, VAbs_Abs.
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apply T_Abs.
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@ -407,7 +336,7 @@ Proof.
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apply H2.
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(* `e` is Morphism Abstraction *)
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exists (expr_morph x σ e').
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- exists (expr_morph x σ e').
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split. apply Multi_Refl.
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split. apply V_Abs, VAbs_Morph.
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apply T_MorphAbs.
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@ -416,13 +345,15 @@ Proof.
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apply H2.
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(* `e` is Application *)
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admit.
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admit.
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- admit.
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(* `e` is morphism *)
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- admit.
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(* `e` is Ascension *)
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admit.
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- admit.
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(* `e` is Descension *)
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admit.
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- admit.
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Admitted.
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@ -101,9 +101,9 @@ Inductive translate_typing : context -> expr_term -> type_term -> expr_term -> P
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(Γ |- e \is (type_univ α τ)) ->
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(translate_typing Γ e τ e') ->
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(translate_typing Γ
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[{ e # τ }]
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[{ e # σ }]
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(type_subst α σ τ)
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[{ e' # τ }])
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[{ e' # σ }])
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| Expand_Abs : forall Γ x σ e e' τ,
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((ctx_assign x σ Γ) |- e \is τ) ->
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