(* Basic inversion lemmas ***************************************************)
-fact simple_inv_bind_aux: â\88\80T. ð\9d\90\92â\9dªTâ\9d« → ∀p,J,W,U. T = ⓑ[p,J]W.U → ⊥.
+fact simple_inv_bind_aux: â\88\80T. ð\9d\90\92â\9d¨Tâ\9d© → ∀p,J,W,U. T = ⓑ[p,J]W.U → ⊥.
#T * -T
[ #I #p #J #W #U #H destruct
| #I #V #T #a #J #W #U #H destruct
]
qed-.
-lemma simple_inv_bind: â\88\80p,I,V,T. ð\9d\90\92â\9dªâ\93\91[p,I] V. Tâ\9d« → ⊥.
+lemma simple_inv_bind: â\88\80p,I,V,T. ð\9d\90\92â\9d¨â\93\91[p,I] V. Tâ\9d© → ⊥.
/2 width=7 by simple_inv_bind_aux/ qed-.
-lemma simple_inv_pair: â\88\80I,V,T. ð\9d\90\92â\9dªâ\91¡[I]V.Tâ\9d« → ∃J. I = Flat2 J.
+lemma simple_inv_pair: â\88\80I,V,T. ð\9d\90\92â\9d¨â\91¡[I]V.Tâ\9d© → ∃J. I = Flat2 J.
* /2 width=2 by ex_intro/
#p #I #V #T #H elim (simple_inv_bind … H)
qed-.
(* Basic properties *********************************************************)
-lemma simple_dec_ex (X): â\88¨â\88¨ ð\9d\90\92â\9dªXâ\9d« | ∃∃p,I,T,U. X = ⓑ[p,I]T.U.
+lemma simple_dec_ex (X): â\88¨â\88¨ ð\9d\90\92â\9d¨Xâ\9d© | ∃∃p,I,T,U. X = ⓑ[p,I]T.U.
* [ /2 width=1 by simple_atom, or_introl/ ]
* [| /2 width=1 by simple_flat, or_introl/ ]
/3 width=5 by ex1_4_intro, or_intror/