X-Git-Url: http://matita.cs.unibo.it/gitweb/?a=blobdiff_plain;f=helm%2Fsoftware%2Fcomponents%2Fng_kernel%2FnCicTypeChecker.ml;h=8b8348023e4330275159eebd4a42f66e4a3818dd;hb=b58b7f9f3fdf8d66522b31828faa5bfa588c31b8;hp=886a982efb9e29735111dda4026666dbc5137157;hpb=28f01bb2d0e5f1b3f180b0b478267d2beb06a5fe;p=helm.git diff --git a/helm/software/components/ng_kernel/nCicTypeChecker.ml b/helm/software/components/ng_kernel/nCicTypeChecker.ml index 886a982ef..8b8348023 100644 --- a/helm/software/components/ng_kernel/nCicTypeChecker.ml +++ b/helm/software/components/ng_kernel/nCicTypeChecker.ml @@ -138,39 +138,7 @@ let sort_of_prod ~metasenv ~subst context (name,s) (t1, t2) = (PP.ppterm ~subst ~metasenv ~context t2)))) ;; -let eat_prods ~subst ~metasenv context he ty_he args_with_ty = - let rec aux ty_he = function - | [] -> ty_he - | (arg, ty_arg)::tl -> - match R.whd ~subst context ty_he with - | C.Prod (_,s,t) -> - if R.are_convertible ~subst context ty_arg s then - aux (S.subst ~avoid_beta_redexes:true arg t) tl - else - raise - (TypeCheckerFailure - (lazy (Printf.sprintf - ("Appl: wrong application of %s: the parameter %s has type"^^ - "\n%s\nbut it should have type \n%s\nContext:\n%s\n") - (PP.ppterm ~subst ~metasenv ~context he) - (PP.ppterm ~subst ~metasenv ~context arg) - (PP.ppterm ~subst ~metasenv ~context ty_arg) - (PP.ppterm ~subst ~metasenv ~context s) - (PP.ppcontext ~subst ~metasenv context)))) - | _ -> - raise - (TypeCheckerFailure - (lazy (Printf.sprintf - "Appl: %s is not a function, it cannot be applied" - (PP.ppterm ~subst ~metasenv ~context - (let res = List.length tl in - let eaten = List.length args_with_ty - res in - (C.Appl - (he::List.map fst - (fst (HExtlib.split_nth eaten args_with_ty))))))))) - in - aux ty_he args_with_ty -;; +(* REMINDER: eat_prods was here *) (* instantiate_parameters ps (x1:T1)...(xn:Tn)C *) (* returns ((x_|ps|:T_|ps|)...(xn:Tn)C){ps_1 / x1 ; ... ; ps_|ps| / x_|ps|} *) @@ -417,7 +385,7 @@ let rec typeof ~subst ~metasenv context term = | C.LetIn (n,ty,t,bo) -> let ty_t = typeof_aux context t in let _ = typeof_aux context ty in - if not (R.are_convertible ~subst context ty_t ty) then + if not (R.are_convertible ~subst get_relevance context ty_t ty) then raise (TypeCheckerFailure (lazy (Printf.sprintf @@ -488,7 +456,7 @@ let rec typeof ~subst ~metasenv context term = let ty_branch = type_of_branch ~subst context leftno outtype cons ty_cons 0 in - j+1, R.are_convertible ~subst context ty_p ty_branch, + j+1, R.are_convertible ~subst get_relevance context ty_p ty_branch, ty_p, ty_branch else j,false,old_p_ty,old_exp_p_ty @@ -550,7 +518,7 @@ let rec typeof ~subst ~metasenv context term = (_,C.Decl t1), (_,C.Decl t2) | (_,C.Def (t1,_)), (_,C.Def (t2,_)) | (_,C.Def (_,t1)), (_,C.Decl t2) -> - if not (R.are_convertible ~subst tl t1 t2) then + if not (R.are_convertible ~subst get_relevance tl t1 t2) then raise (TypeCheckerFailure (lazy (Printf.sprintf @@ -601,7 +569,7 @@ let rec typeof ~subst ~metasenv context term = with Failure _ -> t) | _ -> t in - if not (R.are_convertible ~subst context optimized_t ct) + if not (R.are_convertible ~subst get_relevance context optimized_t ct) then raise (TypeCheckerFailure @@ -612,7 +580,7 @@ let rec typeof ~subst ~metasenv context term = (PP.ppterm ~subst ~metasenv ~context t)))) | t, (_,C.Decl ct) -> let type_t = typeof_aux context t in - if not (R.are_convertible ~subst context type_t ct) then + if not (R.are_convertible ~subst get_relevance context type_t ct) then raise (TypeCheckerFailure (lazy (Printf.sprintf ("Not well typed metavariable local context: "^^ @@ -637,7 +605,7 @@ let rec typeof ~subst ~metasenv context term = let arity2 = R.whd ~subst context arity2 in match arity1,arity2 with | C.Prod (name,so1,de1), C.Prod (_,so2,de2) -> - if not (R.are_convertible ~subst context so1 so2) then + if not (R.are_convertible ~subst get_relevance context so1 so2) then raise (TypeCheckerFailure (lazy (Printf.sprintf "In outtype: expected %s, found %s" (PP.ppterm ~subst ~metasenv ~context so1) @@ -646,7 +614,7 @@ let rec typeof ~subst ~metasenv context term = aux ((name, C.Decl so1)::context) (mkapp (S.lift 1 ind) (C.Rel 1)) de1 de2 | C.Sort _, C.Prod (name,so,ta) -> - if not (R.are_convertible ~subst context so ind) then + if not (R.are_convertible ~subst get_relevance context so ind) then raise (TypeCheckerFailure (lazy (Printf.sprintf "In outtype: expected %s, found %s" (PP.ppterm ~subst ~metasenv ~context ind) @@ -680,6 +648,39 @@ let rec typeof ~subst ~metasenv context term = in typeof_aux context term +and eat_prods ~subst ~metasenv context he ty_he args_with_ty = + let rec aux ty_he = function + | [] -> ty_he + | (arg, ty_arg)::tl -> + match R.whd ~subst context ty_he with + | C.Prod (_,s,t) -> + if R.are_convertible ~subst get_relevance context ty_arg s then + aux (S.subst ~avoid_beta_redexes:true arg t) tl + else + raise + (TypeCheckerFailure + (lazy (Printf.sprintf + ("Appl: wrong application of %s: the parameter %s has type"^^ + "\n%s\nbut it should have type \n%s\nContext:\n%s\n") + (PP.ppterm ~subst ~metasenv ~context he) + (PP.ppterm ~subst ~metasenv ~context arg) + (PP.ppterm ~subst ~metasenv ~context ty_arg) + (PP.ppterm ~subst ~metasenv ~context s) + (PP.ppcontext ~subst ~metasenv context)))) + | _ -> + raise + (TypeCheckerFailure + (lazy (Printf.sprintf + "Appl: %s is not a function, it cannot be applied" + (PP.ppterm ~subst ~metasenv ~context + (let res = List.length tl in + let eaten = List.length args_with_ty - res in + (C.Appl + (he::List.map fst + (fst (HExtlib.split_nth eaten args_with_ty))))))))) + in + aux ty_he args_with_ty + and is_non_informative paramsno c = let rec aux context c = match R.whd context c with @@ -716,11 +717,11 @@ and check_mutual_inductive_defs uri ~metasenv ~subst leftno tyl = let convertible = match item1,item2 with (n1,C.Decl ty1),(n2,C.Decl ty2) -> - n1 = n2 && R.are_convertible ~subst context ty1 ty2 + n1 = n2 && R.are_convertible ~subst get_relevance context ty1 ty2 | (n1,C.Def (bo1,ty1)),(n2,C.Def (bo2,ty2)) -> n1 = n2 - && R.are_convertible ~subst context ty1 ty2 - && R.are_convertible ~subst context bo1 bo2 + && R.are_convertible ~subst get_relevance context ty1 ty2 + && R.are_convertible ~subst get_relevance context bo1 bo2 | _,_ -> false in if not convertible then @@ -1020,6 +1021,29 @@ and type_of_constant ((Ref.Ref (uri,_)) as ref) = if h1 <> h2 then error (); ty | _ -> raise (AssertFailure (lazy "type_of_constant: environment/reference")) + +and get_relevance ~subst context = function + | C.Const r -> + let relevance = E.get_relevance r in + (match r with + | Ref.Ref (_,Ref.Con (_,_,lno)) -> + let _,relevance = HExtlib.split_nth lno relevance in + HExtlib.mk_list false lno @ relevance + | _ -> relevance) + | t -> + let ty = typeof ~subst ~metasenv:[] context t in + let rec aux context = function + | C.Prod (name,so,de) -> + let sort = typeof ~subst ~metasenv:[] context so in + (match sort with + | C.Sort C.Prop -> false::(aux ((name,(C.Decl so))::context) de) + | C.Sort _ -> true::(aux ((name,(C.Decl so))::context) de) + | _ -> raise (TypeCheckerFailure (lazy (Printf.sprintf + "Prod: the type %s of the source of %s is not a sort" + (PP.ppterm ~subst ~metasenv:[] ~context sort) + (PP.ppterm ~subst ~metasenv:[] ~context so))))) + | _ -> [] + in aux context ty ;; let typecheck_context ~metasenv ~subst context = @@ -1032,7 +1056,7 @@ let typecheck_context ~metasenv ~subst context = | name,C.Def (te,ty) -> ignore (typeof ~metasenv ~subst:[] context ty); let ty' = typeof ~metasenv ~subst:[] context te in - if not (R.are_convertible ~subst context ty' ty) then + if not (R.are_convertible ~subst get_relevance context ty' ty) then raise (AssertFailure (lazy (Printf.sprintf ( "the type of the definiens for %s in the context is not "^^ "convertible with the declared one.\n"^^ @@ -1070,7 +1094,7 @@ let typecheck_subst ~metasenv subst = typecheck_context ~metasenv ~subst context; ignore (typeof ~metasenv ~subst context ty); let ty' = typeof ~metasenv ~subst context bo in - if not (R.are_convertible ~subst context ty' ty) then + if not (R.are_convertible ~subst get_relevance context ty' ty) then raise (AssertFailure (lazy (Printf.sprintf ( "the type of the definiens for %d in the substitution is not "^^ "convertible with the declared one.\n"^^ @@ -1082,8 +1106,8 @@ let typecheck_subst ~metasenv subst = ) [] subst) ;; -let check_rel1_irrelevant ~metasenv ~subst context = - let shift e (k, context) = k+1,e::context in +let check_rel1_irrelevant ~metasenv ~subst context = fun _ -> ();; +(* let shift e (k, context) = k+1,e::context in let rec aux (evil, context as k) () t = match R.whd ~subst context t with | C.Rel i when i = evil -> (* @@ -1110,10 +1134,10 @@ let check_rel1_irrelevant ~metasenv ~subst context = | C.Match (_, _, t, pl) -> List.iter (aux k ()) (t::pl) | t -> U.fold shift k aux () t in - aux (1, context) () + aux (1, context) () *) -let check_relevance ~metasenv ~subst ~in_type relevance = - let shift e (in_type, context, relevance) = +let check_relevance ~metasenv ~subst ~in_type relevance = fun _ -> ();; +(* let shift e (in_type, context, relevance) = assert (relevance = []); in_type, e::context, relevance in let rec aux2 (_,context,relevance as k) t = @@ -1170,7 +1194,7 @@ let check_relevance ~metasenv ~subst ~in_type relevance = aux k () t in aux2 (in_type, [], relevance) -;; +;;*) let typecheck_obj (uri,_height,metasenv,subst,kind) = (* height is not checked since it is only used to implement an optimization *) @@ -1180,7 +1204,7 @@ let typecheck_obj (uri,_height,metasenv,subst,kind) = | C.Constant (relevance,_,Some te,ty,_) -> let _ = typeof ~subst ~metasenv [] ty in let ty_te = typeof ~subst ~metasenv [] te in - if not (R.are_convertible ~subst [] ty_te ty) then + if not (R.are_convertible ~subst get_relevance [] ty_te ty) then raise (TypeCheckerFailure (lazy (Printf.sprintf ( "the type of the body is not convertible with the declared one.\n"^^ "inferred type:\n%s\nexpected type:\n%s") @@ -1211,7 +1235,7 @@ let typecheck_obj (uri,_height,metasenv,subst,kind) = in List.iter2 (fun (_,_,x,ty,_) bo -> let ty_bo = typeof ~subst ~metasenv types bo in - if not (R.are_convertible ~subst types ty_bo ty) + if not (R.are_convertible ~subst get_relevance types ty_bo ty) then raise (TypeCheckerFailure (lazy ("(Co)Fix: ill-typed bodies"))) else if inductive then begin