(* PASSO 1 : da PREAST a AST *)
(* ************************* *)
+(* NB: ASSERTO
+ al parser spetta il compito di rigettare le condizioni statiche verificabili
+ - divisione per valore 0
+ al parser spetta il compito di collassare le espressioni statiche
+ - val1+val2 -> val3, ...
+ al parser spetta il compito di collassare gli statement con condizioni statiche
+ - if(true) { b1 } else { b2 } -> b1, ...
+ al parser spetta il compito di individuare divergenza e dead code
+ - while(true) { b1 } -> loop infinito, ...
+*)
+
(* operatore di cast *)
definition preast_to_ast_expr_check ≝
-λe:aux_env_type.λsig:Σt'.ast_expr e t'.λt:ast_base_type.
- match sig with [ sigma_intro t' expr ⇒
- match eq_ast_base_type t' t
- return λx.eq_ast_base_type t' t = x → option (ast_expr e t)
- with
- [ true ⇒ λp:(eq_ast_base_type t' t = true).Some ? (eq_rect ? t' (λt.ast_expr e t) expr t (eqastbasetype_to_eq ?? p))
- | false ⇒ λp:(eq_ast_base_type t' t = false).None ?
- ] (refl_eq ? (eq_ast_base_type t' t))
- ].
-
-definition preast_to_ast_right_expr_check ≝
-λe:aux_env_type.λsig:Σt'.ast_right_expr e t'.λt:ast_type.
+λd.λe:aux_env_type d.λsig:(Σt'.ast_expr d e t').λt:ast_type.
match sig with [ sigma_intro t' expr ⇒
match eq_ast_type t' t
- return λx.eq_ast_type t' t = x → option (ast_right_expr e t)
+ return λx.eq_ast_type t' t = x → option (ast_expr d e t)
with
- [ true ⇒ λp:(eq_ast_type t' t = true).Some ? (eq_rect ? t' (λt.ast_right_expr e t) expr t (eqasttype_to_eq ?? p))
+ [ true ⇒ λp:(eq_ast_type t' t = true).Some ? (eq_rect ? t' (λt.ast_expr d e t) expr t (eqasttype_to_eq ?? p))
| false ⇒ λp:(eq_ast_type t' t = false).None ?
] (refl_eq ? (eq_ast_type t' t))
].
definition preast_to_ast_init_check ≝
-λe:aux_env_type.λsig:Σt'.ast_init e t'.λt:ast_type.
+λd.λe:aux_env_type d.λsig:Σt'.ast_init d e t'.λt:ast_type.
match sig with [ sigma_intro t' expr ⇒
match eq_ast_type t' t
- return λx.eq_ast_type t' t = x → option (ast_init e t)
+ return λx.eq_ast_type t' t = x → option (ast_init d e t)
with
- [ true ⇒ λp:(eq_ast_type t' t = true).Some ? (eq_rect ? t' (λt.ast_init e t) expr t (eqasttype_to_eq ?? p))
+ [ true ⇒ λp:(eq_ast_type t' t = true).Some ? (eq_rect ? t' (λt.ast_init d e t) expr t (eqasttype_to_eq ?? p))
| false ⇒ λp:(eq_ast_type t' t = false).None ?
] (refl_eq ? (eq_ast_type t' t))
].
definition preast_to_ast_var_checkb ≝
-λe:aux_env_type.λt:ast_type.λsig:Σb'.ast_var e b' t.λb:bool.
+λd.λe:aux_env_type d.λt:ast_type.λsig:(Σb'.ast_var d e b' t).λb:bool.
match sig with [ sigma_intro b' var ⇒
match eq_bool b' b
- return λx.eq_bool b' b = x → option (ast_var e b t)
+ return λx.eq_bool b' b = x → option (ast_var d e b t)
with
- [ true ⇒ λp:(eq_bool b' b = true).Some ? (eq_rect ? b' (λb.ast_var e b t) var b (eqbool_to_eq ?? p))
+ [ true ⇒ λp:(eq_bool b' b = true).Some ? (eq_rect ? b' (λb.ast_var d e b t) var b (eqbool_to_eq ?? p))
| false ⇒ λp:(eq_bool b' b = false).None ?
] (refl_eq ? (eq_bool b' b))
].
definition preast_to_ast_var_checkt ≝
-λe:aux_env_type.λb:bool.λsig:Σt'.ast_var e b t'.λt:ast_type.
+λd.λe:aux_env_type d.λb:bool.λsig:(Σt'.ast_var d e b t').λt:ast_type.
match sig with [ sigma_intro t' var ⇒
match eq_ast_type t' t
- return λx.eq_ast_type t' t = x → option (ast_var e b t)
+ return λx.eq_ast_type t' t = x → option (ast_var d e b t)
with
- [ true ⇒ λp:(eq_ast_type t' t = true).Some ? (eq_rect ? t' (λt.ast_var e b t) var t (eqasttype_to_eq ?? p))
+ [ true ⇒ λp:(eq_ast_type t' t = true).Some ? (eq_rect ? t' (λt.ast_var d e b t) var t (eqasttype_to_eq ?? p))
| false ⇒ λp:(eq_ast_type t' t = false).None ?
] (refl_eq ? (eq_ast_type t' t))
].
definition preast_to_ast_var_check ≝
-λe:aux_env_type.λsig:Σb'.(Σt'.ast_var e b' t').λb:bool.λt:ast_type.
- opt_map ?? (preast_to_ast_var_checkt e (sigmaFst ?? sig) (sigmaSnd ?? sig) t)
- (λres1.opt_map ?? (preast_to_ast_var_checkb e t ≪(sigmaFst ?? sig),res1≫ b)
+λd.λe:aux_env_type d.λsig:(Σb'.(Σt'.ast_var d e b' t')).λb:bool.λt:ast_type.
+ opt_map ?? (preast_to_ast_var_checkt d e (sigmaFst ?? sig) (sigmaSnd ?? sig) t)
+ (λres1.opt_map ?? (preast_to_ast_var_checkb d e t ≪(sigmaFst ?? sig),res1≫ b)
(λres2.Some ? res2)).
(*
PREAST_EXPR_W32toW16: preast_expr → preast_expr
PREAST_EXPR_ID: preast_var → preast_expr
*)
-let rec preast_to_ast_expr (preast:preast_expr) (e:aux_env_type) on preast : option (Σt:ast_base_type.ast_expr e t) ≝
+let rec preast_to_ast_expr (preast:preast_expr) (d:nat) (e:aux_env_type d) on preast : option (Σt.ast_expr d e t) ≝
match preast with
- [ PREAST_EXPR_BYTE8 val ⇒ Some ? ≪AST_BASE_TYPE_BYTE8,(AST_EXPR_BYTE8 e val)≫
- | PREAST_EXPR_WORD16 val ⇒ Some ? ≪AST_BASE_TYPE_WORD16,(AST_EXPR_WORD16 e val)≫
- | PREAST_EXPR_WORD32 val ⇒ Some ? ≪AST_BASE_TYPE_WORD32,(AST_EXPR_WORD32 e val)≫
+ [ PREAST_EXPR_BYTE8 val ⇒ Some ? ≪?,(AST_EXPR_BYTE8 d e val)≫
+ | PREAST_EXPR_WORD16 val ⇒ Some ? ≪?,(AST_EXPR_WORD16 d e val)≫
+ | PREAST_EXPR_WORD32 val ⇒ Some ? ≪?,(AST_EXPR_WORD32 d e val)≫
| PREAST_EXPR_NEG subExpr ⇒
- opt_map ?? (preast_to_ast_expr subExpr e)
- (λsigmaRes:Σt:ast_base_type.ast_expr e t.
- Some ? ≪(sigmaFst ?? sigmaRes),(AST_EXPR_NEG e (sigmaFst ?? sigmaRes) (sigmaSnd ?? sigmaRes))≫)
+ opt_map ?? (preast_to_ast_expr subExpr d e)
+ (λsigmaRes:(Σt.ast_expr d e t).
+ match (sigmaFst ?? sigmaRes) with
+ [ AST_TYPE_BASE bType ⇒
+ opt_map ?? (preast_to_ast_expr_check d e sigmaRes (AST_TYPE_BASE bType))
+ (λres.Some ? ≪?,(AST_EXPR_NEG d e ? res)≫)
+ | _ ⇒ None ? ])
| PREAST_EXPR_NOT subExpr ⇒
- opt_map ?? (preast_to_ast_expr subExpr e)
- (λsigmaRes:Σt:ast_base_type.ast_expr e t.
- Some ? ≪(sigmaFst ?? sigmaRes),(AST_EXPR_NOT e (sigmaFst ?? sigmaRes) (sigmaSnd ?? sigmaRes))≫)
+ opt_map ?? (preast_to_ast_expr subExpr d e)
+ (λsigmaRes:(Σt.ast_expr d e t).
+ match (sigmaFst ?? sigmaRes) with
+ [ AST_TYPE_BASE bType ⇒
+ opt_map ?? (preast_to_ast_expr_check d e sigmaRes (AST_TYPE_BASE bType))
+ (λres.Some ? ≪?,(AST_EXPR_NOT d e ? res)≫)
+ | _ ⇒ None ? ])
| PREAST_EXPR_COM subExpr ⇒
- opt_map ?? (preast_to_ast_expr subExpr e)
- (λsigmaRes:Σt:ast_base_type.ast_expr e t.
- Some ? ≪(sigmaFst ?? sigmaRes),(AST_EXPR_COM e (sigmaFst ?? sigmaRes) (sigmaSnd ?? sigmaRes))≫)
+ opt_map ?? (preast_to_ast_expr subExpr d e)
+ (λsigmaRes:(Σt.ast_expr d e t).
+ match (sigmaFst ?? sigmaRes) with
+ [ AST_TYPE_BASE bType ⇒
+ opt_map ?? (preast_to_ast_expr_check d e sigmaRes (AST_TYPE_BASE bType))
+ (λres.Some ? ≪?,(AST_EXPR_COM d e ? res)≫)
+ | _ ⇒ None ? ])
| PREAST_EXPR_ADD subExpr1 subExpr2 ⇒
- opt_map ?? (preast_to_ast_expr subExpr1 e)
- (λsigmaRes1:Σt:ast_base_type.ast_expr e t.opt_map ?? (preast_to_ast_expr subExpr2 e)
- (λsigmaRes2.opt_map ?? (preast_to_ast_expr_check e sigmaRes2 (sigmaFst ?? sigmaRes1))
- (λres2.Some ? ≪(sigmaFst ?? sigmaRes1),(AST_EXPR_ADD e (sigmaFst ?? sigmaRes1) (sigmaSnd ?? sigmaRes1) res2)≫)))
+ opt_map ?? (preast_to_ast_expr subExpr1 d e)
+ (λsigmaRes1:(Σt.ast_expr d e t).opt_map ?? (preast_to_ast_expr subExpr2 d e)
+ (λsigmaRes2:(Σt.ast_expr d e t).
+ match (sigmaFst ?? sigmaRes1) with
+ [ AST_TYPE_BASE bType ⇒
+ opt_map ?? (preast_to_ast_expr_check d e sigmaRes1 (AST_TYPE_BASE bType))
+ (λres1.opt_map ?? (preast_to_ast_expr_check d e sigmaRes2 (AST_TYPE_BASE bType))
+ (λres2.Some ? ≪?,(AST_EXPR_ADD d e ? res1 res2)≫))
+ | _ ⇒ None ? ]))
| PREAST_EXPR_SUB subExpr1 subExpr2 ⇒
- opt_map ?? (preast_to_ast_expr subExpr1 e)
- (λsigmaRes1:Σt:ast_base_type.ast_expr e t.opt_map ?? (preast_to_ast_expr subExpr2 e)
- (λsigmaRes2.opt_map ?? (preast_to_ast_expr_check e sigmaRes2 (sigmaFst ?? sigmaRes1))
- (λres2.Some ? ≪(sigmaFst ?? sigmaRes1),(AST_EXPR_SUB e (sigmaFst ?? sigmaRes1) (sigmaSnd ?? sigmaRes1) res2)≫)))
+ opt_map ?? (preast_to_ast_expr subExpr1 d e)
+ (λsigmaRes1:(Σt.ast_expr d e t).opt_map ?? (preast_to_ast_expr subExpr2 d e)
+ (λsigmaRes2:(Σt.ast_expr d e t).
+ match (sigmaFst ?? sigmaRes1) with
+ [ AST_TYPE_BASE bType ⇒
+ opt_map ?? (preast_to_ast_expr_check d e sigmaRes1 (AST_TYPE_BASE bType))
+ (λres1.opt_map ?? (preast_to_ast_expr_check d e sigmaRes2 (AST_TYPE_BASE bType))
+ (λres2.Some ? ≪?,(AST_EXPR_SUB d e ? res1 res2)≫))
+ | _ ⇒ None ? ]))
| PREAST_EXPR_MUL subExpr1 subExpr2 ⇒
- opt_map ?? (preast_to_ast_expr subExpr1 e)
- (λsigmaRes1:Σt:ast_base_type.ast_expr e t.opt_map ?? (preast_to_ast_expr subExpr2 e)
- (λsigmaRes2.opt_map ?? (preast_to_ast_expr_check e sigmaRes2 (sigmaFst ?? sigmaRes1))
- (λres2.Some ? ≪(sigmaFst ?? sigmaRes1),(AST_EXPR_MUL e (sigmaFst ?? sigmaRes1) (sigmaSnd ?? sigmaRes1) res2)≫)))
+ opt_map ?? (preast_to_ast_expr subExpr1 d e)
+ (λsigmaRes1:(Σt.ast_expr d e t).opt_map ?? (preast_to_ast_expr subExpr2 d e)
+ (λsigmaRes2:(Σt.ast_expr d e t).
+ match (sigmaFst ?? sigmaRes1) with
+ [ AST_TYPE_BASE bType ⇒
+ opt_map ?? (preast_to_ast_expr_check d e sigmaRes1 (AST_TYPE_BASE bType))
+ (λres1.opt_map ?? (preast_to_ast_expr_check d e sigmaRes2 (AST_TYPE_BASE bType))
+ (λres2.Some ? ≪?,(AST_EXPR_MUL d e ? res1 res2)≫))
+ | _ ⇒ None ? ]))
| PREAST_EXPR_DIV subExpr1 subExpr2 ⇒
- opt_map ?? (preast_to_ast_expr subExpr1 e)
- (λsigmaRes1:Σt:ast_base_type.ast_expr e t.opt_map ?? (preast_to_ast_expr subExpr2 e)
- (λsigmaRes2.opt_map ?? (preast_to_ast_expr_check e sigmaRes2 (sigmaFst ?? sigmaRes1))
- (λres2.Some ? ≪(sigmaFst ?? sigmaRes1),(AST_EXPR_DIV e (sigmaFst ?? sigmaRes1) (sigmaSnd ?? sigmaRes1) res2)≫)))
+ opt_map ?? (preast_to_ast_expr subExpr1 d e)
+ (λsigmaRes1:(Σt.ast_expr d e t).opt_map ?? (preast_to_ast_expr subExpr2 d e)
+ (λsigmaRes2:(Σt.ast_expr d e t).
+ match (sigmaFst ?? sigmaRes1) with
+ [ AST_TYPE_BASE bType ⇒
+ opt_map ?? (preast_to_ast_expr_check d e sigmaRes1 (AST_TYPE_BASE bType))
+ (λres1.opt_map ?? (preast_to_ast_expr_check d e sigmaRes2 (AST_TYPE_BASE bType))
+ (λres2.Some ? ≪?,(AST_EXPR_DIV d e ? res1 res2)≫))
+ | _ ⇒ None ? ]))
| PREAST_EXPR_SHR subExpr1 subExpr2 ⇒
- opt_map ?? (preast_to_ast_expr subExpr1 e)
- (λsigmaRes1:Σt:ast_base_type.ast_expr e t.opt_map ?? (preast_to_ast_expr subExpr2 e)
- (λsigmaRes2.opt_map ?? (preast_to_ast_expr_check e sigmaRes2 AST_BASE_TYPE_BYTE8)
- (λres2.Some ? ≪(sigmaFst ?? sigmaRes1),(AST_EXPR_SHR e (sigmaFst ?? sigmaRes1) (sigmaSnd ?? sigmaRes1) res2)≫)))
+ opt_map ?? (preast_to_ast_expr subExpr1 d e)
+ (λsigmaRes1:(Σt.ast_expr d e t).opt_map ?? (preast_to_ast_expr subExpr2 d e)
+ (λsigmaRes2:(Σt.ast_expr d e t).
+ match (sigmaFst ?? sigmaRes1) with
+ [ AST_TYPE_BASE bType ⇒
+ opt_map ?? (preast_to_ast_expr_check d e sigmaRes1 (AST_TYPE_BASE bType))
+ (λres1.opt_map ?? (preast_to_ast_expr_check d e sigmaRes2 (AST_TYPE_BASE AST_BASE_TYPE_BYTE8))
+ (λres2.Some ? ≪?,(AST_EXPR_SHR d e ? res1 res2)≫))
+ | _ ⇒ None ? ]))
| PREAST_EXPR_SHL subExpr1 subExpr2 ⇒
- opt_map ?? (preast_to_ast_expr subExpr1 e)
- (λsigmaRes1:Σt:ast_base_type.ast_expr e t.opt_map ?? (preast_to_ast_expr subExpr2 e)
- (λsigmaRes2.opt_map ?? (preast_to_ast_expr_check e sigmaRes2 AST_BASE_TYPE_BYTE8)
- (λres2.Some ? ≪(sigmaFst ?? sigmaRes1),(AST_EXPR_SHL e (sigmaFst ?? sigmaRes1) (sigmaSnd ?? sigmaRes1) res2)≫)))
+ opt_map ?? (preast_to_ast_expr subExpr1 d e)
+ (λsigmaRes1:(Σt.ast_expr d e t).opt_map ?? (preast_to_ast_expr subExpr2 d e)
+ (λsigmaRes2:(Σt.ast_expr d e t).
+ match (sigmaFst ?? sigmaRes1) with
+ [ AST_TYPE_BASE bType ⇒
+ opt_map ?? (preast_to_ast_expr_check d e sigmaRes1 (AST_TYPE_BASE bType))
+ (λres1.opt_map ?? (preast_to_ast_expr_check d e sigmaRes2 (AST_TYPE_BASE AST_BASE_TYPE_BYTE8))
+ (λres2.Some ? ≪?,(AST_EXPR_SHL d e ? res1 res2)≫))
+ | _ ⇒ None ? ]))
| PREAST_EXPR_GT subExpr1 subExpr2 ⇒
- opt_map ?? (preast_to_ast_expr subExpr1 e)
- (λsigmaRes1:Σt:ast_base_type.ast_expr e t.opt_map ?? (preast_to_ast_expr subExpr2 e)
- (λsigmaRes2.opt_map ?? (preast_to_ast_expr_check e sigmaRes2 (sigmaFst ?? sigmaRes1))
- (λres2.Some ? ≪AST_BASE_TYPE_BYTE8,(AST_EXPR_GT e (sigmaFst ?? sigmaRes1) (sigmaSnd ?? sigmaRes1) res2)≫)))
+ opt_map ?? (preast_to_ast_expr subExpr1 d e)
+ (λsigmaRes1:(Σt.ast_expr d e t).opt_map ?? (preast_to_ast_expr subExpr2 d e)
+ (λsigmaRes2:(Σt.ast_expr d e t).
+ match (sigmaFst ?? sigmaRes1) with
+ [ AST_TYPE_BASE bType ⇒
+ opt_map ?? (preast_to_ast_expr_check d e sigmaRes1 (AST_TYPE_BASE bType))
+ (λres1.opt_map ?? (preast_to_ast_expr_check d e sigmaRes2 (AST_TYPE_BASE bType))
+ (λres2.Some ? ≪?,(AST_EXPR_GT d e ? res1 res2)≫))
+ | _ ⇒ None ? ]))
| PREAST_EXPR_GTE subExpr1 subExpr2 ⇒
- opt_map ?? (preast_to_ast_expr subExpr1 e)
- (λsigmaRes1:Σt:ast_base_type.ast_expr e t.opt_map ?? (preast_to_ast_expr subExpr2 e)
- (λsigmaRes2.opt_map ?? (preast_to_ast_expr_check e sigmaRes2 (sigmaFst ?? sigmaRes1))
- (λres2.Some ? ≪AST_BASE_TYPE_BYTE8,(AST_EXPR_GTE e (sigmaFst ?? sigmaRes1) (sigmaSnd ?? sigmaRes1) res2)≫)))
+ opt_map ?? (preast_to_ast_expr subExpr1 d e)
+ (λsigmaRes1:(Σt.ast_expr d e t).opt_map ?? (preast_to_ast_expr subExpr2 d e)
+ (λsigmaRes2:(Σt.ast_expr d e t).
+ match (sigmaFst ?? sigmaRes1) with
+ [ AST_TYPE_BASE bType ⇒
+ opt_map ?? (preast_to_ast_expr_check d e sigmaRes1 (AST_TYPE_BASE bType))
+ (λres1.opt_map ?? (preast_to_ast_expr_check d e sigmaRes2 (AST_TYPE_BASE bType))
+ (λres2.Some ? ≪?,(AST_EXPR_GTE d e ? res1 res2)≫))
+ | _ ⇒ None ? ]))
| PREAST_EXPR_LT subExpr1 subExpr2 ⇒
- opt_map ?? (preast_to_ast_expr subExpr1 e)
- (λsigmaRes1:Σt:ast_base_type.ast_expr e t.opt_map ?? (preast_to_ast_expr subExpr2 e)
- (λsigmaRes2.opt_map ?? (preast_to_ast_expr_check e sigmaRes2 (sigmaFst ?? sigmaRes1))
- (λres2.Some ? ≪AST_BASE_TYPE_BYTE8,(AST_EXPR_LT e (sigmaFst ?? sigmaRes1) (sigmaSnd ?? sigmaRes1) res2)≫)))
+ opt_map ?? (preast_to_ast_expr subExpr1 d e)
+ (λsigmaRes1:(Σt.ast_expr d e t).opt_map ?? (preast_to_ast_expr subExpr2 d e)
+ (λsigmaRes2:(Σt.ast_expr d e t).
+ match (sigmaFst ?? sigmaRes1) with
+ [ AST_TYPE_BASE bType ⇒
+ opt_map ?? (preast_to_ast_expr_check d e sigmaRes1 (AST_TYPE_BASE bType))
+ (λres1.opt_map ?? (preast_to_ast_expr_check d e sigmaRes2 (AST_TYPE_BASE bType))
+ (λres2.Some ? ≪?,(AST_EXPR_LT d e ? res1 res2)≫))
+ | _ ⇒ None ? ]))
| PREAST_EXPR_LTE subExpr1 subExpr2 ⇒
- opt_map ?? (preast_to_ast_expr subExpr1 e)
- (λsigmaRes1:Σt:ast_base_type.ast_expr e t.opt_map ?? (preast_to_ast_expr subExpr2 e)
- (λsigmaRes2.opt_map ?? (preast_to_ast_expr_check e sigmaRes2 (sigmaFst ?? sigmaRes1))
- (λres2.Some ? ≪AST_BASE_TYPE_BYTE8,(AST_EXPR_LTE e (sigmaFst ?? sigmaRes1) (sigmaSnd ?? sigmaRes1) res2)≫)))
+ opt_map ?? (preast_to_ast_expr subExpr1 d e)
+ (λsigmaRes1:(Σt.ast_expr d e t).opt_map ?? (preast_to_ast_expr subExpr2 d e)
+ (λsigmaRes2:(Σt.ast_expr d e t).
+ match (sigmaFst ?? sigmaRes1) with
+ [ AST_TYPE_BASE bType ⇒
+ opt_map ?? (preast_to_ast_expr_check d e sigmaRes1 (AST_TYPE_BASE bType))
+ (λres1.opt_map ?? (preast_to_ast_expr_check d e sigmaRes2 (AST_TYPE_BASE bType))
+ (λres2.Some ? ≪?,(AST_EXPR_LTE d e ? res1 res2)≫))
+ | _ ⇒ None ? ]))
| PREAST_EXPR_EQ subExpr1 subExpr2 ⇒
- opt_map ?? (preast_to_ast_expr subExpr1 e)
- (λsigmaRes1:Σt:ast_base_type.ast_expr e t.opt_map ?? (preast_to_ast_expr subExpr2 e)
- (λsigmaRes2.opt_map ?? (preast_to_ast_expr_check e sigmaRes2 (sigmaFst ?? sigmaRes1))
- (λres2.Some ? ≪AST_BASE_TYPE_BYTE8,(AST_EXPR_EQ e (sigmaFst ?? sigmaRes1) (sigmaSnd ?? sigmaRes1) res2)≫)))
+ opt_map ?? (preast_to_ast_expr subExpr1 d e)
+ (λsigmaRes1:(Σt.ast_expr d e t).opt_map ?? (preast_to_ast_expr subExpr2 d e)
+ (λsigmaRes2:(Σt.ast_expr d e t).
+ match (sigmaFst ?? sigmaRes1) with
+ [ AST_TYPE_BASE bType ⇒
+ opt_map ?? (preast_to_ast_expr_check d e sigmaRes1 (AST_TYPE_BASE bType))
+ (λres1.opt_map ?? (preast_to_ast_expr_check d e sigmaRes2 (AST_TYPE_BASE bType))
+ (λres2.Some ? ≪?,(AST_EXPR_EQ d e ? res1 res2)≫))
+ | _ ⇒ None ? ]))
| PREAST_EXPR_NEQ subExpr1 subExpr2 ⇒
- opt_map ?? (preast_to_ast_expr subExpr1 e)
- (λsigmaRes1:Σt:ast_base_type.ast_expr e t.opt_map ?? (preast_to_ast_expr subExpr2 e)
- (λsigmaRes2.opt_map ?? (preast_to_ast_expr_check e sigmaRes2 (sigmaFst ?? sigmaRes1))
- (λres2.Some ? ≪AST_BASE_TYPE_BYTE8,(AST_EXPR_NEQ e (sigmaFst ?? sigmaRes1) (sigmaSnd ?? sigmaRes1) res2)≫)))
+ opt_map ?? (preast_to_ast_expr subExpr1 d e)
+ (λsigmaRes1:(Σt.ast_expr d e t).opt_map ?? (preast_to_ast_expr subExpr2 d e)
+ (λsigmaRes2:(Σt.ast_expr d e t).
+ match (sigmaFst ?? sigmaRes1) with
+ [ AST_TYPE_BASE bType ⇒
+ opt_map ?? (preast_to_ast_expr_check d e sigmaRes1 (AST_TYPE_BASE bType))
+ (λres1.opt_map ?? (preast_to_ast_expr_check d e sigmaRes2 (AST_TYPE_BASE bType))
+ (λres2.Some ? ≪?,(AST_EXPR_NEQ d e ? res1 res2)≫))
+ | _ ⇒ None ? ]))
| PREAST_EXPR_B8toW16 subExpr ⇒
- opt_map ?? (preast_to_ast_expr subExpr e)
- (λsigmaRes:Σt:ast_base_type.ast_expr e t.opt_map ?? (preast_to_ast_expr_check e sigmaRes AST_BASE_TYPE_BYTE8)
- (λres.Some ? ≪AST_BASE_TYPE_WORD16,(AST_EXPR_B8toW16 e res)≫))
+ opt_map ?? (preast_to_ast_expr subExpr d e)
+ (λsigmaRes:(Σt.ast_expr d e t).opt_map ?? (preast_to_ast_expr_check d e sigmaRes (AST_TYPE_BASE AST_BASE_TYPE_BYTE8))
+ (λres.Some ? ≪?,(AST_EXPR_B8toW16 d e res)≫))
| PREAST_EXPR_B8toW32 subExpr ⇒
- opt_map ?? (preast_to_ast_expr subExpr e)
- (λsigmaRes:Σt:ast_base_type.ast_expr e t.opt_map ?? (preast_to_ast_expr_check e sigmaRes AST_BASE_TYPE_BYTE8)
- (λres.Some ? ≪AST_BASE_TYPE_WORD32,(AST_EXPR_B8toW32 e res)≫))
+ opt_map ?? (preast_to_ast_expr subExpr d e)
+ (λsigmaRes:(Σt.ast_expr d e t).opt_map ?? (preast_to_ast_expr_check d e sigmaRes (AST_TYPE_BASE AST_BASE_TYPE_BYTE8))
+ (λres.Some ? ≪?,(AST_EXPR_B8toW32 d e res)≫))
| PREAST_EXPR_W16toB8 subExpr ⇒
- opt_map ?? (preast_to_ast_expr subExpr e)
- (λsigmaRes:Σt:ast_base_type.ast_expr e t.opt_map ?? (preast_to_ast_expr_check e sigmaRes AST_BASE_TYPE_WORD16)
- (λres.Some ? ≪AST_BASE_TYPE_BYTE8,(AST_EXPR_W16toB8 e res)≫))
+ opt_map ?? (preast_to_ast_expr subExpr d e)
+ (λsigmaRes:(Σt.ast_expr d e t).opt_map ?? (preast_to_ast_expr_check d e sigmaRes (AST_TYPE_BASE AST_BASE_TYPE_WORD16))
+ (λres.Some ? ≪?,(AST_EXPR_W16toB8 d e res)≫))
| PREAST_EXPR_W16toW32 subExpr ⇒
- opt_map ?? (preast_to_ast_expr subExpr e)
- (λsigmaRes:Σt:ast_base_type.ast_expr e t.opt_map ?? (preast_to_ast_expr_check e sigmaRes AST_BASE_TYPE_WORD16)
- (λres.Some ? ≪AST_BASE_TYPE_WORD32,(AST_EXPR_W16toW32 e res)≫))
+ opt_map ?? (preast_to_ast_expr subExpr d e)
+ (λsigmaRes:(Σt.ast_expr d e t).opt_map ?? (preast_to_ast_expr_check d e sigmaRes (AST_TYPE_BASE AST_BASE_TYPE_WORD16))
+ (λres.Some ? ≪?,(AST_EXPR_W16toW32 d e res)≫))
| PREAST_EXPR_W32toB8 subExpr ⇒
- opt_map ?? (preast_to_ast_expr subExpr e)
- (λsigmaRes:Σt:ast_base_type.ast_expr e t.opt_map ?? (preast_to_ast_expr_check e sigmaRes AST_BASE_TYPE_WORD32)
- (λres.Some ? ≪AST_BASE_TYPE_BYTE8,(AST_EXPR_W32toB8 e res)≫))
+ opt_map ?? (preast_to_ast_expr subExpr d e)
+ (λsigmaRes:(Σt.ast_expr d e t).opt_map ?? (preast_to_ast_expr_check d e sigmaRes (AST_TYPE_BASE AST_BASE_TYPE_WORD32))
+ (λres.Some ? ≪?,(AST_EXPR_W32toB8 d e res)≫))
| PREAST_EXPR_W32toW16 subExpr ⇒
- opt_map ?? (preast_to_ast_expr subExpr e)
- (λsigmaRes:Σt:ast_base_type.ast_expr e t.opt_map ?? (preast_to_ast_expr_check e sigmaRes AST_BASE_TYPE_WORD32)
- (λres.Some ? ≪AST_BASE_TYPE_WORD16,(AST_EXPR_W32toW16 e res)≫))
+ opt_map ?? (preast_to_ast_expr subExpr d e)
+ (λsigmaRes:(Σt.ast_expr d e t).opt_map ?? (preast_to_ast_expr_check d e sigmaRes (AST_TYPE_BASE AST_BASE_TYPE_WORD32))
+ (λres.Some ? ≪?,(AST_EXPR_W32toW16 d e res)≫))
- | PREAST_EXPR_ID var ⇒
- opt_map ?? (preast_to_ast_var var e)
- (λsigmaRes:(Σb:bool.(Σt:ast_type.ast_var e b t)).
+ | PREAST_EXPR_ID var ⇒
+ opt_map ?? (preast_to_ast_var var d e)
+ (λsigmaRes:(Σb.(Σt.ast_var d e b t)).
match sigmaRes with [ sigma_intro b sigmaRes' ⇒
match sigmaRes' with [ sigma_intro t _ ⇒
- match t with
- [ AST_TYPE_BASE bType ⇒
- opt_map ?? (preast_to_ast_var_check e sigmaRes b (AST_TYPE_BASE bType))
- (λres.Some ? ≪bType,(AST_EXPR_ID e b bType res)≫)
- | _ ⇒ None ? ]]])
+ opt_map ?? (preast_to_ast_var_check d e sigmaRes b t)
+ (λres.Some ? ≪?,(AST_EXPR_ID d e ?? res)≫)]])
]
(*
PREAST_VAR_ID: aux_str_type → preast_var
PREAST_VAR_ARRAY: preast_var → preast_expr → preast_var
PREAST_VAR_STRUCT: preast_var → nat → preast_var
*)
-and preast_to_ast_var (preast:preast_var) (e:aux_env_type) on preast : option (Σb:bool.(Σt:ast_type.ast_var e b t)) ≝
+and preast_to_ast_var (preast:preast_var) (d:nat) (e:aux_env_type d) on preast : option (Σb.(Σt.ast_var d e b t)) ≝
match preast with
[ PREAST_VAR_ID name ⇒
- match checkb_desc_env e name
- return λx.checkb_desc_env e name = x → option (Σb:bool.(Σt:ast_type.ast_var e b t))
+ match checkb_desc_env d e name
+ return λx.checkb_desc_env d e name = x → option (Σb.(Σt.ast_var d e b t))
with
- [ true ⇒ λp:(checkb_desc_env e name = true).
- let desc ≝ get_desc_env e name in
+ [ true ⇒ λp:(checkb_desc_env d e name = true).
+ let desc ≝ get_desc_env d e name in
let b ≝ get_const_desc desc in
let t ≝ get_type_desc desc in
- Some ? ≪b,≪t,(AST_VAR_ID e b t (AST_ID e name (checkbdescenv_to_checkdescenv e name p)))≫≫
- | false ⇒ λp:(checkb_desc_env e name = false).None ?
- ] (refl_eq ? (checkb_desc_env e name))
+ Some ? ≪b,≪t,(AST_VAR_ID d e b t (AST_ID d e name (checkbdescenv_to_checkdescenv d e name p)))≫≫
+ | false ⇒ λp:(checkb_desc_env d e name = false).None ?
+ ] (refl_eq ? (checkb_desc_env d e name))
| PREAST_VAR_ARRAY subVar expr ⇒
- opt_map ?? (preast_to_ast_var subVar e)
- (λsigmaRes:(Σb:bool.(Σt:ast_type.ast_var e b t)).
- match sigmaRes with [ sigma_intro b sigmaRes' ⇒
- match sigmaRes' with [ sigma_intro t _ ⇒
+ opt_map ?? (preast_to_ast_var subVar d e)
+ (λsigmaResV:(Σb.(Σt.ast_var d e b t)).
+ match sigmaResV with [ sigma_intro b sigmaResV' ⇒
+ match sigmaResV' with [ sigma_intro t _ ⇒
match t with
[ AST_TYPE_ARRAY subType dim ⇒
- opt_map ?? (preast_to_ast_var_check e sigmaRes b (AST_TYPE_ARRAY subType dim))
+ opt_map ?? (preast_to_ast_var_check d e sigmaResV b (AST_TYPE_ARRAY subType dim))
(λresVar.
(* ASSERTO:
1) se l'indice e' un'espressione riducibile ad un valore deve essere gia'
OUT_OF_BOUND sara' fatto a run time
*)
match (match expr with
- [ PREAST_EXPR_BYTE8 val ⇒ (λx.leb (nat_of_byte8 val) dim)
- | PREAST_EXPR_WORD16 val ⇒ (λx.leb (nat_of_word16 val) dim)
- | PREAST_EXPR_WORD32 val ⇒ (λx.leb (nat_of_word32 val) dim)
+ [ PREAST_EXPR_BYTE8 val ⇒ (λx.ltb (nat_of_byte8 val) dim)
+ | PREAST_EXPR_WORD16 val ⇒ (λx.ltb (nat_of_word16 val) dim)
+ | PREAST_EXPR_WORD32 val ⇒ (λx.ltb (nat_of_word32 val) dim)
| _ ⇒ (λx.true) ]) expr with
[ true ⇒
- opt_map ?? (preast_to_ast_expr expr e)
- (λsigmaRes:Σt:ast_base_type.ast_expr e t.
- match sigmaRes with [ sigma_intro t resExpr ⇒
- Some ? ≪b,≪subType,(AST_VAR_ARRAY e b subType dim resVar (AST_BASE_EXPR e t resExpr))≫≫ ])
+ opt_map ?? (preast_to_ast_expr expr d e)
+ (λsigmaResE:(Σt.ast_expr d e t).
+ match sigmaFst ?? sigmaResE with
+ [ AST_TYPE_BASE bType ⇒
+ opt_map ?? (preast_to_ast_expr_check d e sigmaResE (AST_TYPE_BASE bType))
+ (λresExpr.Some ? ≪b,≪subType,(AST_VAR_ARRAY d e b subType dim resVar (AST_BASE_EXPR d e bType resExpr))≫≫)
+ | _ ⇒ None ? ])
| false ⇒ None ? ])
| _ ⇒ None ? ]]])
| PREAST_VAR_STRUCT subVar field ⇒
- opt_map ?? (preast_to_ast_var subVar e)
- (λsigmaRes:(Σb:bool.(Σt:ast_type.ast_var e b t)).
+ opt_map ?? (preast_to_ast_var subVar d e)
+ (λsigmaRes:(Σb.(Σt.ast_var d e b t)).
match sigmaRes with [ sigma_intro b sigmaRes' ⇒
match sigmaRes' with [ sigma_intro t _ ⇒
match t with
[ AST_TYPE_STRUCT nelSubType ⇒
- opt_map ?? (preast_to_ast_var_check e sigmaRes b (AST_TYPE_STRUCT nelSubType))
+ opt_map ?? (preast_to_ast_var_check d e sigmaRes b (AST_TYPE_STRUCT nelSubType))
(λresVar.
match ltb field (len_neList ? nelSubType)
- return λx.(ltb field (len_neList ? nelSubType) = x) → option (Σb:bool.(Σt:ast_type.ast_var e b t))
+ return λx.(ltb field (len_neList ? nelSubType) = x) → option (Σb.(Σt.ast_var d e b t))
with
[ true ⇒ λp:(ltb field (len_neList ? nelSubType) = true).
- Some ? ≪b,≪(abs_nth_neList ? nelSubType field),(AST_VAR_STRUCT e b nelSubType field resVar p)≫≫
+ Some ? ≪b,≪(abs_nth_neList ? nelSubType field),(AST_VAR_STRUCT d e b nelSubType field resVar p)≫≫
| false ⇒ λp:(ltb field (len_neList ? nelSubType) = false).None ?
] (refl_eq ? (ltb field (len_neList ? nelSubType)))
)
λt:ast_type.λn:nat.λx:Prod (aux_ast_init_type t) (aux_ast_init_type (AST_TYPE_ARRAY t n)).x.
definition preast_to_ast_init_val_aux_struct :
-Πt.Πnel.Prod (aux_ast_init_type t) (aux_ast_init_type (AST_TYPE_STRUCT nel)) → (aux_ast_init_type (AST_TYPE_STRUCT («t£»&nel))) ≝
+Πt.Πnel.Prod (aux_ast_init_type t) (aux_ast_init_type (AST_TYPE_STRUCT nel)) → (aux_ast_init_type (AST_TYPE_STRUCT («£t»&nel))) ≝
λt:ast_type.λnel:ne_list ast_type.λx:Prod (aux_ast_init_type t) (aux_ast_init_type (AST_TYPE_STRUCT nel)).x.
-let rec preast_to_ast_init_val_aux (preast:preast_init_val) on preast : option (Σt:ast_type.aux_ast_init_type t) ≝
+let rec preast_to_ast_init_val_aux (preast:preast_init_val) on preast : option (Σt.aux_ast_init_type t) ≝
match preast with
[ PREAST_INIT_VAL_BYTE8 val ⇒
- Some (Σt:ast_type.aux_ast_init_type t) ≪(AST_TYPE_BASE AST_BASE_TYPE_BYTE8),val≫
+ Some (Σt.aux_ast_init_type t) ≪(AST_TYPE_BASE AST_BASE_TYPE_BYTE8),val≫
| PREAST_INIT_VAL_WORD16 val ⇒
- Some (Σt:ast_type.aux_ast_init_type t) ≪(AST_TYPE_BASE AST_BASE_TYPE_WORD16),val≫
+ Some (Σt.aux_ast_init_type t) ≪(AST_TYPE_BASE AST_BASE_TYPE_WORD16),val≫
| PREAST_INIT_VAL_WORD32 val ⇒
- Some (Σt:ast_type.aux_ast_init_type t) ≪(AST_TYPE_BASE AST_BASE_TYPE_WORD32),val≫
+ Some (Σt.aux_ast_init_type t) ≪(AST_TYPE_BASE AST_BASE_TYPE_WORD32),val≫
| PREAST_INIT_VAL_ARRAY nelSubVal ⇒
- let rec aux (nel:ne_list preast_init_val) on nel : option (Σt:ast_type.aux_ast_init_type t) ≝
+ let rec aux (nel:ne_list preast_init_val) on nel : option (Σt.aux_ast_init_type t) ≝
match nel with
[ ne_nil h ⇒
opt_map ?? (preast_to_ast_init_val_aux h)
(λsigmaRes.match sigmaRes with [ sigma_intro t res ⇒
- Some (Σt:ast_type.aux_ast_init_type t) ≪(AST_TYPE_ARRAY t 0),res≫ ])
+ Some (Σt.aux_ast_init_type t) ≪(AST_TYPE_ARRAY t 0),res≫ ])
| ne_cons h tl ⇒
opt_map ?? (preast_to_ast_init_val_aux h)
- (λsigmaRes1:(Σt:ast_type.aux_ast_init_type t).opt_map ?? (aux tl)
- (λsigmaRes2:(Σt:ast_type.aux_ast_init_type t).
+ (λsigmaRes1:(Σt.aux_ast_init_type t).opt_map ?? (aux tl)
+ (λsigmaRes2:(Σt.aux_ast_init_type t).
match sigmaRes1 with [ sigma_intro t1 res1 ⇒
match sigmaRes2 with [ sigma_intro t2 res2 ⇒
match t2 with
[ AST_TYPE_ARRAY bType dim ⇒
match eq_ast_type t1 bType
- return λx.(eq_ast_type t1 bType = x) → option (Σt:ast_type.aux_ast_init_type t)
+ return λx.(eq_ast_type t1 bType = x) → option (Σt.aux_ast_init_type t)
with
[ true ⇒ λp:(eq_ast_type t1 bType = true).
match eq_ast_type t2 (AST_TYPE_ARRAY bType dim)
- return λy.(eq_ast_type t2 (AST_TYPE_ARRAY bType dim) = y) → option (Σt:ast_type.aux_ast_init_type t)
+ return λy.(eq_ast_type t2 (AST_TYPE_ARRAY bType dim) = y) → option (Σt.aux_ast_init_type t)
with
[ true ⇒ λp':(eq_ast_type t2 (AST_TYPE_ARRAY bType dim) = true).
- Some (Σt:ast_type.aux_ast_init_type t) ≪(AST_TYPE_ARRAY bType (S dim)),
- (preast_to_ast_init_val_aux_array bType dim
- (pair (aux_ast_init_type bType) (aux_ast_init_type (AST_TYPE_ARRAY bType dim))
- (eq_rect ? t1 (λw.aux_ast_init_type w) res1 bType (eqasttype_to_eq ?? p))
- (eq_rect ? t2 (λz.aux_ast_init_type z) res2 (AST_TYPE_ARRAY bType dim) (eqasttype_to_eq ?? p'))))≫
+ Some (Σt.aux_ast_init_type t) ≪(AST_TYPE_ARRAY bType (S dim)),
+ (preast_to_ast_init_val_aux_array bType dim
+ (pair (aux_ast_init_type bType) (aux_ast_init_type (AST_TYPE_ARRAY bType dim))
+ (eq_rect ? t1 (λw.aux_ast_init_type w) res1 bType (eqasttype_to_eq ?? p))
+ (eq_rect ? t2 (λz.aux_ast_init_type z) res2 (AST_TYPE_ARRAY bType dim) (eqasttype_to_eq ?? p'))))≫
| false ⇒ λp':(eq_ast_type t2 (AST_TYPE_ARRAY bType dim) = false).None ?
] (refl_eq ? (eq_ast_type t2 (AST_TYPE_ARRAY bType dim)))
| false ⇒ λp:(eq_ast_type t1 bType = false).None ?
] in aux nelSubVal
| PREAST_INIT_VAL_STRUCT nelSubVal ⇒
- let rec aux (nel:ne_list preast_init_val) on nel : option (Σt:ast_type.aux_ast_init_type t) ≝
+ let rec aux (nel:ne_list preast_init_val) on nel : option (Σt.aux_ast_init_type t) ≝
match nel with
[ ne_nil h ⇒
opt_map ?? (preast_to_ast_init_val_aux h)
- (λsigmaRes:(Σt:ast_type.aux_ast_init_type t).match sigmaRes with [ sigma_intro t res ⇒
- Some (Σt:ast_type.aux_ast_init_type t) ≪(AST_TYPE_STRUCT (« t £»)),res≫ ])
+ (λsigmaRes:(Σt.aux_ast_init_type t).match sigmaRes with [ sigma_intro t res ⇒
+ Some (Σt.aux_ast_init_type t) ≪(AST_TYPE_STRUCT («£t»)),res≫ ])
| ne_cons h tl ⇒
opt_map ?? (preast_to_ast_init_val_aux h)
- (λsigmaRes1:(Σt:ast_type.aux_ast_init_type t).opt_map ?? (aux tl)
- (λsigmaRes2:(Σt:ast_type.aux_ast_init_type t).
+ (λsigmaRes1:(Σt.aux_ast_init_type t).opt_map ?? (aux tl)
+ (λsigmaRes2:(Σt.aux_ast_init_type t).
match sigmaRes1 with [ sigma_intro t1 res1 ⇒
match sigmaRes2 with [ sigma_intro t2 res2 ⇒
match t2 with
[ AST_TYPE_STRUCT nelSubType ⇒
match eq_ast_type t2 (AST_TYPE_STRUCT nelSubType)
- return λx.(eq_ast_type t2 (AST_TYPE_STRUCT nelSubType) = x) → option (Σt:ast_type.aux_ast_init_type t)
+ return λx.(eq_ast_type t2 (AST_TYPE_STRUCT nelSubType) = x) → option (Σt.aux_ast_init_type t)
with
[ true ⇒ λp:(eq_ast_type t2 (AST_TYPE_STRUCT nelSubType) = true).
- Some (Σt:ast_type.aux_ast_init_type t) ≪(AST_TYPE_STRUCT («t1£»&nelSubType)),
- (preast_to_ast_init_val_aux_struct ??
- (pair (aux_ast_init_type t1) (aux_ast_init_type (AST_TYPE_STRUCT nelSubType))
- res1
- (eq_rect ? t2 (λy.aux_ast_init_type y) res2 (AST_TYPE_STRUCT nelSubType) (eqasttype_to_eq ?? p))))≫
+ Some (Σt.aux_ast_init_type t) ≪(AST_TYPE_STRUCT («£t1»&nelSubType)),
+ (preast_to_ast_init_val_aux_struct ??
+ (pair (aux_ast_init_type t1) (aux_ast_init_type (AST_TYPE_STRUCT nelSubType))
+ res1
+ (eq_rect ? t2 (λy.aux_ast_init_type y) res2 (AST_TYPE_STRUCT nelSubType) (eqasttype_to_eq ?? p))))≫
| false ⇒ λp:(eq_ast_type t2 (AST_TYPE_STRUCT nelSubType) = false).None ?
] (refl_eq ? (eq_ast_type t2 (AST_TYPE_STRUCT nelSubType)))
| _ ⇒ None ? ]]]))
PREAST_INIT_VAR: preast_var → preast_init
PREAST_INIT_VAL: preast_init_val → preast_init
*)
-definition preast_to_ast_init : preast_init → Πe.option (Σt:ast_type.ast_init e t) ≝
-λpreast:preast_init.λe:aux_env_type.match preast with
+definition preast_to_ast_init : preast_init → Πd.Πe:aux_env_type d.option (Σt.ast_init d e t) ≝
+λpreast:preast_init.λd.λe:aux_env_type d.match preast with
[ PREAST_INIT_VAR var ⇒
- opt_map ?? (preast_to_ast_var var e)
- (λsigmaRes:(Σb:bool.(Σt:ast_type.ast_var e b t)).
- Some (Σt:ast_type.ast_init e t) ≪?,(AST_INIT_VAR e ?? (sigmaSnd ?? (sigmaSnd ?? sigmaRes)))≫)
+ opt_map ?? (preast_to_ast_var var d e)
+ (λsigmaRes:(Σb.(Σt.ast_var d e b t)).
+ Some ? ≪?,(AST_INIT_VAR d e ?? (sigmaSnd ?? (sigmaSnd ?? sigmaRes)))≫)
| PREAST_INIT_VAL val ⇒
opt_map ?? (preast_to_ast_init_val_aux val)
- (λsigmaRes:(Σt:ast_type.aux_ast_init_type t).
- Some (Σt:ast_type.ast_init e t) ≪?,(AST_INIT_VAL e ? (sigmaSnd ?? sigmaRes))≫)
+ (λsigmaRes:(Σt.aux_ast_init_type t).
+ Some ? ≪?,(AST_INIT_VAL d e ? (sigmaSnd ?? sigmaRes))≫)
].
(*
PREAST_STM_WHILE: preast_expr → preast_decl → preast_stm
PREAST_STM_IF: ne_list (Prod preast_expr preast_decl) → option preast_decl → preast_stm
*)
-definition preast_to_ast_right_expr : preast_expr → Πe.option (Σt:ast_type.ast_right_expr e t) ≝
-λpreast:preast_expr.λe:aux_env_type.match preast with
- (* NB: PREAST_EXPR_ID viene sempre tradotto come AST_RIGHT_EXPR_VAR *)
- [ PREAST_EXPR_ID var ⇒
- opt_map ?? (preast_to_ast_var var e)
- (λsigmaRes:(Σb:bool.(Σt:ast_type.ast_var e b t)).
- Some (Σt:ast_type.ast_right_expr e t) ≪?,(AST_RIGHT_EXPR_VAR e ?? (sigmaSnd ?? (sigmaSnd ?? sigmaRes)))≫)
-
- | _ ⇒
- opt_map ?? (preast_to_ast_expr preast e)
- (λsigmaRes:(Σt:ast_base_type.ast_expr e t).
- Some (Σt:ast_type.ast_right_expr e t) ≪ (AST_TYPE_BASE ?),(AST_RIGHT_EXPR_BASE e ? (sigmaSnd ?? sigmaRes))≫)
- ].
-
-definition preast_to_ast_base_expr : preast_expr → Πe.option (ast_base_expr e) ≝
-λpreast:preast_expr.λe:aux_env_type.
- opt_map ?? (preast_to_ast_expr preast e)
- (λsigmaRes:(Σt:ast_base_type.ast_expr e t).
- Some (ast_base_expr e) (AST_BASE_EXPR e ? (sigmaSnd ?? sigmaRes))).
-
-let rec preast_to_ast_stm (preast:preast_stm) (e:aux_env_type) on preast : option (ast_stm e) ≝
+definition preast_to_ast_base_expr : preast_expr → Πd.Πe:aux_env_type d.option (ast_base_expr d e) ≝
+λpreast:preast_expr.λd.λe:aux_env_type d.
+ opt_map ?? (preast_to_ast_expr preast d e)
+ (λsigmaRes:(Σt.ast_expr d e t).
+ match sigmaFst ?? sigmaRes with
+ [ AST_TYPE_BASE bType ⇒
+ opt_map ?? (preast_to_ast_expr_check d e sigmaRes (AST_TYPE_BASE bType))
+ (λres.Some ? (AST_BASE_EXPR d e ? res))
+ | _ ⇒ None ? ]).
+
+let rec preast_to_ast_stm (preast:preast_stm) (d:nat) (e:aux_env_type d) on preast : option (ast_stm d e) ≝
match preast with
[ PREAST_STM_ASG var expr ⇒
- opt_map ?? (preast_to_ast_var var e)
- (λsigmaResV:(Σb:bool.(Σt:ast_type.ast_var e b t)).
+ opt_map ?? (preast_to_ast_var var d e)
+ (λsigmaResV:(Σb.(Σt.ast_var d e b t)).
match sigmaResV with [ sigma_intro _ sigmaResV' ⇒
match sigmaResV' with [ sigma_intro t _ ⇒
- opt_map ?? (preast_to_ast_var_check e sigmaResV false t)
- (λresVar.opt_map ?? (preast_to_ast_right_expr expr e)
- (λsigmaResE:(Σt:ast_type.ast_right_expr e t).opt_map ?? (preast_to_ast_right_expr_check e sigmaResE t)
- (λresExpr.Some ? (AST_STM_ASG e t resVar resExpr)
+ opt_map ?? (preast_to_ast_var_check d e sigmaResV false t)
+ (λresVar.opt_map ?? (preast_to_ast_expr expr d e)
+ (λsigmaResE:(Σt.ast_expr d e t).opt_map ?? (preast_to_ast_expr_check d e sigmaResE t)
+ (λresExpr.Some ? (AST_STM_ASG d e t resVar resExpr)
)))]])
| PREAST_STM_WHILE expr decl ⇒
- opt_map ?? (preast_to_ast_base_expr expr e)
- (λresExpr.opt_map ?? (preast_to_ast_decl decl e)
- (λresDecl.Some ? (AST_STM_WHILE e resExpr resDecl)))
-
+ opt_map ?? (preast_to_ast_base_expr expr d e)
+ (λresExpr.opt_map ?? (preast_to_ast_decl decl (S d) (enter_env d e))
+ (λresDecl.Some ? (AST_STM_WHILE d e resExpr resDecl)))
+
| PREAST_STM_IF nelExprDecl optDecl ⇒
- opt_map ?? (fold_right_neList ?? (λh,t.opt_map ?? (preast_to_ast_base_expr (fst ?? h) e)
- (λresExpr.opt_map ?? (preast_to_ast_decl (snd ?? h) e)
+ opt_map ?? (fold_right_neList ?? (λh,t.opt_map ?? (preast_to_ast_base_expr (fst ?? h) d e)
+ (λresExpr.opt_map ?? (preast_to_ast_decl (snd ?? h) (S d) (enter_env d e))
(λresDecl.opt_map ?? t
- (λt'.Some ? («(pair ?? resExpr resDecl)£»&t')))))
- (Some ? (ne_nil ? (pair ?? (AST_BASE_EXPR e AST_BASE_TYPE_BYTE8 (AST_EXPR_BYTE8 e 〈x0,x0〉)) (AST_NO_DECL e (nil ?)))))
+ (λt'.Some ? («£(pair ?? resExpr resDecl)»&t')))))
+ (Some ? (ne_nil ? (pair ?? (AST_BASE_EXPR d e AST_BASE_TYPE_BYTE8 (AST_EXPR_BYTE8 d e 〈x0,x0〉)) (AST_NO_DECL (S d) (enter_env d e) (nil ?)))))
nelExprDecl)
(λres.match optDecl with
- [ None ⇒ Some ? (AST_STM_IF e (cut_last_neList ? res) (None ?))
- | Some decl ⇒ opt_map ?? (preast_to_ast_decl decl e)
- (λresDecl.Some ? (AST_STM_IF e (cut_last_neList ? res) (Some ? resDecl)))
+ [ None ⇒ Some ? (AST_STM_IF d e (cut_last_neList ? res) (None ?))
+ | Some decl ⇒ opt_map ?? (preast_to_ast_decl decl (S d) (enter_env d e))
+ (λresDecl.Some ? (AST_STM_IF d e (cut_last_neList ? res) (Some ? resDecl)))
])
]
(*
PREAST_NO_DECL: list preast_stm → preast_decl
PREAST_DECL: bool → aux_str_type → ast_type → option preast_init → preast_decl → preast_decl
*)
-and preast_to_ast_decl (preast:preast_decl) (e:aux_env_type) on preast : option (ast_decl e) ≝
+and preast_to_ast_decl (preast:preast_decl) (d:nat) (e:aux_env_type d) on preast : option (ast_decl d e) ≝
match preast with
[ PREAST_NO_DECL lPreastStm ⇒
- opt_map ?? (fold_right_list ?? (λh,t.opt_map ?? (preast_to_ast_stm h e)
+ opt_map ?? (fold_right_list ?? (λh,t.opt_map ?? (preast_to_ast_stm h d e)
(λh'.opt_map ?? t
(λt'.Some ? ([h']@t')))) (Some ? (nil ?)) lPreastStm)
- (λres.Some ? (AST_NO_DECL e res))
+ (λres.Some ? (AST_NO_DECL d e res))
| PREAST_DECL constFlag decName decType optInitExpr subPreastDecl ⇒
- match checkb_not_already_def_env e decName
- return λx.(checkb_not_already_def_env e decName = x) → option (ast_decl e)
+ match checkb_not_already_def_env d e decName
+ return λx.(checkb_not_already_def_env d e decName = x) → option (ast_decl d e)
with
- [ true ⇒ λp:(checkb_not_already_def_env e decName = true).
- opt_map ?? (preast_to_ast_decl subPreastDecl (add_desc_env e decName constFlag decType))
+ [ true ⇒ λp:(checkb_not_already_def_env d e decName = true).
+ opt_map ?? (preast_to_ast_decl subPreastDecl d (add_desc_env d e decName constFlag decType))
(λdecl.match optInitExpr with
- [ None ⇒ Some ? (AST_DECL e constFlag decName decType
- (checkbnotalreadydefenv_to_checknotalreadydefenv e decName p) (None ?) decl)
+ [ None ⇒ Some ? (AST_DECL d e constFlag decName decType
+ (checkbnotalreadydefenv_to_checknotalreadydefenv d e decName p) (None ?) decl)
| Some initExpr ⇒
- opt_map ?? (preast_to_ast_init initExpr e)
- (λsigmaRes:(Σt:ast_type.ast_init e t).opt_map ?? (preast_to_ast_init_check e sigmaRes decType)
- (λresInit.Some ? (AST_DECL e constFlag decName decType
- (checkbnotalreadydefenv_to_checknotalreadydefenv e decName p) (Some ? resInit) decl)))])
- | false ⇒ λp:(checkb_not_already_def_env e decName = false).None ?
- ] (refl_eq ? (checkb_not_already_def_env e decName))
+ opt_map ?? (preast_to_ast_init initExpr d e)
+ (λsigmaRes:(Σt:ast_type.ast_init d e t).opt_map ?? (preast_to_ast_init_check d e sigmaRes decType)
+ (λresInit.Some ? (AST_DECL d e constFlag decName decType
+ (checkbnotalreadydefenv_to_checknotalreadydefenv d e decName p) (Some ? resInit) decl)))])
+ | false ⇒ λp:(checkb_not_already_def_env d e decName = false).None ?
+ ] (refl_eq ? (checkb_not_already_def_env d e decName))
].
(*
*)
definition preast_to_ast ≝
λpreast:preast_root.match preast with
- [ PREAST_ROOT decl ⇒ opt_map ?? (preast_to_ast_decl decl empty_env)
+ [ PREAST_ROOT decl ⇒ opt_map ?? (preast_to_ast_decl decl O empty_env)
(λres.Some ? (AST_ROOT res)) ].