(* ********************************************************************** *)
include "string/string.ma".
-include "freescale/word32.ma".
include "compiler/ast_type.ma".
(* ***************** *)
VAR_ELEM: aux_str_type → desc_elem → var_elem.
(* ambiente globale: (ambiente base + ambienti annidati) *)
-definition aux_env_type ≝ ne_list (list var_elem).
+inductive env_list : nat → Type ≝
+ env_nil: list var_elem → env_list O
+| env_cons: ∀n.list var_elem → env_list n → env_list (S n).
+
+definition defined_envList ≝
+λd.λl:env_list d.match l with [ env_nil _ ⇒ False | env_cons _ _ _ ⇒ True ].
+
+definition cut_first_envList : Πd.env_list d → ? → env_list (pred d) ≝
+λd.λl:env_list d.λp:defined_envList ? l.
+ let value ≝
+ match l
+ return λX.λY:env_list X.defined_envList X Y → env_list (pred X)
+ with
+ [ env_nil h ⇒ λp:defined_envList O (env_nil h).False_rect ? p
+ | env_cons n h t ⇒ λp:defined_envList (S n) (env_cons n h t).t
+ ] p in value.
+
+definition get_first_envList ≝
+λd.λl:env_list d.
+ match l with
+ [ env_nil h ⇒ h
+ | env_cons _ h _ ⇒ h
+ ].
+
+lemma defined_envList_S :
+∀d.∀l:env_list (S d).defined_envList (S d) l.
+ intros;
+ inversion l;
+ [ intros; destruct H
+ | intros; simplify; apply I
+ ]
+qed.
+
+definition aux_env_type ≝ λd.env_list d.
(* getter *)
definition get_const_desc ≝ λd:desc_elem.match d with [ DESC_ELEM c _ ⇒ c ].
definition get_type_desc ≝ λd:desc_elem.match d with [ DESC_ELEM _ t ⇒ t ].
+definition eqDesc_elem ≝ λd,d'.(eq_bool (get_const_desc d) (get_const_desc d'))⊗(eq_ast_type (get_type_desc d) (get_type_desc d')).
+
+lemma eq_to_eqdescelem : ∀d,d'.d = d' → eqDesc_elem d d' = true.
+ intros 3;
+ rewrite < H;
+ elim d;
+ simplify;
+ rewrite > (eq_to_eqbool b b (refl_eq ??));
+ rewrite > (eq_to_eqasttype a a (refl_eq ??));
+ reflexivity.
+qed.
+
+lemma eqdescelem_to_eq : ∀d,d'.eqDesc_elem d d' = true → d = d'.
+ intros 2;
+ elim d 0;
+ elim d' 0;
+ intros 4;
+ simplify;
+ intro;
+ rewrite > (eqbool_to_eq b1 b (andb_true_true ?? H));
+ rewrite > (eqasttype_to_eq a1 a (andb_true_true_r ?? H));
+ reflexivity.
+qed.
+
definition get_name_var ≝ λv:var_elem.match v with [ VAR_ELEM n _ ⇒ n ].
definition get_desc_var ≝ λv:var_elem.match v with [ VAR_ELEM _ d ⇒ d ].
(* ambiente vuoto *)
-definition empty_env ≝ ne_nil ? (nil var_elem ).
+definition empty_env ≝ env_nil [].
(* setter *)
-definition enter_env ≝ λe:aux_env_type.e&empty_env.
-definition leave_env ≝ λe:aux_env_type.cut_last_neList ? e.
+definition enter_env ≝ λd.λe:aux_env_type d.env_cons d [] e.
+definition leave_env ≝ λd.λe:aux_env_type (S d).cut_first_envList (S d) e (defined_envList_S ??).
-(* recupera descrittore da ambiente *)
-let rec get_desc_from_lev_env (env:list var_elem ) (str:aux_str_type) on env ≝
+(* recupera descrittore da ambiente: il primo trovato, ma e' anche l'unico *)
+let rec get_desc_from_lev_env (env:list var_elem) (str:aux_str_type) on env ≝
match env with
[ nil ⇒ None ?
- | cons h t ⇒ match strCmp_str str (get_name_var h) with
+ | cons h t ⇒ match eqStr_str str (get_name_var h) with
[ true ⇒ Some ? (get_desc_var h)
| false ⇒ get_desc_from_lev_env t str ]].
-(* recupera descrittore da ambiente globale *)
-let rec get_desc_env_aux (env:aux_env_type) (res:option desc_elem) (str:aux_str_type) on env ≝
+(* recupera descrittore da ambiente globale: il primo trovato *)
+let rec get_desc_env_aux d (env:aux_env_type d) (str:aux_str_type) on env ≝
match env with
- [ ne_nil h ⇒ match get_desc_from_lev_env h str with
- [ None ⇒ res | Some res' ⇒ Some ? res' ]
- | ne_cons h t ⇒ get_desc_env_aux t (match get_desc_from_lev_env h str with
- [ None ⇒ res | Some res' ⇒ Some ? res' ]) str ].
+ [ env_nil h ⇒ get_desc_from_lev_env h str
+ | env_cons n h t ⇒ match get_desc_from_lev_env h str with
+ [ None ⇒ get_desc_env_aux n t str | Some res' ⇒ Some ? res' ]
+ ].
-definition check_desc_env ≝ λe:aux_env_type.λstr:aux_str_type.
- match get_desc_env_aux e (None ?) str with [ None ⇒ False | Some _ ⇒ True ].
+definition check_desc_env ≝ λd.λe:aux_env_type d.λstr:aux_str_type.
+ match get_desc_env_aux d e str with [ None ⇒ False | Some _ ⇒ True ].
-definition checkb_desc_env ≝ λe:aux_env_type.λstr:aux_str_type.
- match get_desc_env_aux e (None ?) str with [ None ⇒ false | Some _ ⇒ true ].
+definition checkb_desc_env ≝ λd.λe:aux_env_type d.λstr:aux_str_type.
+ match get_desc_env_aux d e str with [ None ⇒ false | Some _ ⇒ true ].
-lemma checkbdescenv_to_checkdescenv : ∀e,str.checkb_desc_env e str = true → check_desc_env e str.
+lemma checkbdescenv_to_checkdescenv : ∀d.∀e:aux_env_type d.∀str.checkb_desc_env d e str = true → check_desc_env d e str.
unfold checkb_desc_env;
unfold check_desc_env;
intros;
- letin K ≝ (get_desc_env_aux e (None ?) str);
+ letin K ≝ (get_desc_env_aux d e str);
elim K;
[ normalize; autobatch |
normalize; autobatch ]
qed.
-definition get_desc_env ≝ λe:aux_env_type.λstr:aux_str_type.
- match get_desc_env_aux e (None ?) str with
+definition get_desc_env ≝ λd.λe:aux_env_type d.λstr:aux_str_type.
+ match get_desc_env_aux d e str with
[ None ⇒ DESC_ELEM true (AST_TYPE_BASE AST_BASE_TYPE_BYTE8) | Some x ⇒ x ].
-definition check_not_already_def_env ≝ λe:aux_env_type.λstr:aux_str_type.
- match get_desc_from_lev_env (get_last_neList ? e) str with [ None ⇒ True | Some _ ⇒ False ].
+definition check_not_already_def_env ≝ λd.λe:aux_env_type d.λstr:aux_str_type.
+ match get_desc_from_lev_env (get_first_envList d e) str with [ None ⇒ True | Some _ ⇒ False ].
-definition checkb_not_already_def_env ≝ λe:aux_env_type.λstr:aux_str_type.
- match get_desc_from_lev_env (get_last_neList ? e) str with [ None ⇒ true | Some _ ⇒ false ].
+definition checkb_not_already_def_env ≝ λd.λe:aux_env_type d.λstr:aux_str_type.
+ match get_desc_from_lev_env (get_first_envList d e) str with [ None ⇒ true | Some _ ⇒ false ].
-lemma checkbnotalreadydefenv_to_checknotalreadydefenv : ∀e,str.checkb_not_already_def_env e str = true → check_not_already_def_env e str.
+lemma checkbnotalreadydefenv_to_checknotalreadydefenv : ∀d.∀e:aux_env_type d.∀str.checkb_not_already_def_env d e str = true → check_not_already_def_env d e str.
unfold checkb_not_already_def_env;
unfold check_not_already_def_env;
intros;
- letin K ≝ (get_desc_from_lev_env (get_last_neList ? e) str);
+ letin K ≝ (get_desc_from_lev_env (get_first_envList d e) str);
elim K;
[ normalize; autobatch |
normalize; autobatch ]
qed.
-(* aggiungi descrittore ad ambiente globale *)
+(* aggiungi descrittore ad ambiente globale: in testa al primo ambiente *)
definition add_desc_env ≝
-λe:aux_env_type.λstr:aux_str_type.λc:bool.λdesc:ast_type.
-let var ≝ VAR_ELEM str (DESC_ELEM c desc) in
- match e with
- [ ne_nil h ⇒ ne_nil ? (var::h)
- | ne_cons _ _ ⇒ (cut_last_neList ? e)&«(var::(get_last_neList ? e)) £ »
+λd.λe:aux_env_type d.λstr:aux_str_type.λc:bool.λdesc:ast_type.
+(*let var ≝ VAR_ELEM str (DESC_ELEM c desc) in*)
+ match e
+ return λX.λe:aux_env_type X.aux_env_type X
+ with
+ [ env_nil h ⇒ env_nil ((VAR_ELEM str (DESC_ELEM c desc))::h)
+ | env_cons n h t ⇒ env_cons n ((VAR_ELEM str (DESC_ELEM c desc))::h) t
].
+
+(* controllo e <= e' *)
+definition eq_env_elem ≝
+λe1,e2.match e1 with
+ [ VAR_ELEM s1 d1 ⇒ match e2 with
+ [ VAR_ELEM s2 d2 ⇒ (eqStr_str s1 s2)⊗(eqDesc_elem d1 d2) ]].
+
+lemma eq_to_eqenv : ∀e1,e2.e1 = e2 → eq_env_elem e1 e2 = true.
+ intros 3;
+ rewrite < H;
+ elim e1;
+ simplify;
+ rewrite > (eq_to_eqstr a a (refl_eq ??));
+ rewrite > (eq_to_eqdescelem d d (refl_eq ??));
+ reflexivity.
+qed.
+
+lemma eqenv_to_eq : ∀e1,e2.eq_env_elem e1 e2 = true → e1 = e2.
+ intros 2;
+ elim e1 0;
+ elim e2 0;
+ intros 4;
+ simplify;
+ intro;
+ rewrite > (eqstr_to_eq a1 a (andb_true_true ?? H));
+ rewrite > (eqdescelem_to_eq d1 d (andb_true_true_r ?? H));
+ reflexivity.
+qed.