* http://cs.unibo.it/helm/.
*)
-let hashtbl_add_time = ref 0.0;;
+type sort_kind = [ `Prop | `Set | `Type | `CProp ]
+
+let sort_of_string = function
+ | "Prop" -> `Prop
+ | "Set" -> `Set
+ | "Type" -> `Type
+ | "CProp" -> `CProp
+ | _ -> assert false
+
+let string_of_sort = function
+ | `Prop -> "Prop"
+ | `Set -> "Set"
+ | `Type -> "Type"
+ | `CProp -> "CProp"
+
+let sort_of_sort = function
+ | Cic.Prop -> `Prop
+ | Cic.Set -> `Set
+ | Cic.Type _ -> `Type
+ | Cic.CProp -> `CProp
+
+(* let hashtbl_add_time = ref 0.0;; *)
let xxx_add h k v =
- let t1 = Sys.time () in
+(* let t1 = Sys.time () in *)
Hashtbl.add h k v ;
- let t2 = Sys.time () in
- hashtbl_add_time := !hashtbl_add_time +. t2 -. t1
+(* let t2 = Sys.time () in
+ hashtbl_add_time := !hashtbl_add_time +. t2 -. t1 *)
;;
-let number_new_type_of_aux' = ref 0;;
-let type_of_aux'_add_time = ref 0.0;;
+(* let number_new_type_of_aux' = ref 0;;
+let type_of_aux'_add_time = ref 0.0;; *)
let xxx_type_of_aux' m c t =
- let t1 = Sys.time () in
- let res = CicTypeChecker.type_of_aux' m c t in
- let t2 = Sys.time () in
- type_of_aux'_add_time := !type_of_aux'_add_time +. t2 -. t1 ;
+(* let t1 = Sys.time () in *)
+ let res,_ = CicTypeChecker.type_of_aux' m c t CicUniv.empty_ugraph in
+(* let t2 = Sys.time () in
+ type_of_aux'_add_time := !type_of_aux'_add_time +. t2 -. t1 ; *)
res
;;
let module D = DoubleTypeInference in
let module C = Cic in
let fresh_id' = fresh_id seed ids_to_terms ids_to_father_ids in
- let time1 = Sys.time () in
+(* let time1 = Sys.time () in *)
let terms_to_types =
+(*
let time0 = Sys.time () in
let prova = CicTypeChecker.type_of_aux' metasenv context t in
let time1 = Sys.time () in
let time2 = Sys.time () in
prerr_endline ("*** Fine double_type_inference:" ^ (string_of_float (time2 -. time1)));
res
+*)
+ D.double_type_of metasenv context t expectedty
in
+(*
let time2 = Sys.time () in
prerr_endline
("++++++++++++ Tempi della double_type_of: "^ string_of_float (time2 -. time1)) ;
+*)
let rec aux computeinnertypes father context idrefs tt =
let fresh_id'' = fresh_id' father tt in
(*CSC: computeinnertypes era true, il che e' proprio sbagliato, no? *)
(*CSC: This is a very inefficient way of computing inner types *)
(*CSC: and inner sorts: very deep terms have their types/sorts *)
(*CSC: computed again and again. *)
- let string_of_sort t =
+ let sort_of t =
match CicReduction.whd context t with
- C.Sort C.Prop -> "Prop"
- | C.Sort C.Set -> "Set"
- | C.Sort C.Type -> "Type"
- | C.Sort C.CProp -> "CProp"
- | C.Meta _ ->
-prerr_endline "Cic2acic: string_of_sort applied to a meta" ;
- "?"
- | _ -> assert false
+ C.Sort C.Prop -> `Prop
+ | C.Sort C.Set -> `Set
+ | C.Sort (C.Type _)
+ | C.Meta _ -> `Type
+ | C.Sort C.CProp -> `CProp
+ | t ->
+ prerr_endline ("Cic2acic.sort_of applied to: " ^ CicPp.ppterm t) ;
+ assert false
in
let ainnertypes,innertype,innersort,expected_available =
(*CSC: Here we need the algorithm for Coscoy's double type-inference *)
{D.synthesized =
(***CSC: patch per provare i tempi
CicReduction.whd context (xxx_type_of_aux' metasenv context tt) ; *)
-Cic.Sort Cic.Type ;
+Cic.Sort (Cic.Type (CicUniv.fresh())); (* TASSI: non dovrebbe fare danni *)
D.expected = None}
in
- incr number_new_type_of_aux' ;
+(* incr number_new_type_of_aux' ; *)
let innersort = (*XXXXX *) xxx_type_of_aux' metasenv context synthesized (* Cic.Sort Cic.Prop *) in
let ainnertypes,expected_available =
if computeinnertypes then
else
None,false
in
- ainnertypes,synthesized, string_of_sort innersort, expected_available
+ ainnertypes,synthesized, sort_of innersort, expected_available
(*XXXXXXXX *)
with
Not_found -> (* l'inner-type non e' nella tabella ==> sort <> Prop *)
(* CSC: Type or Set? I can not tell *)
- None,Cic.Sort Cic.Type,"Type",false
+ None,Cic.Sort (Cic.Type (CicUniv.fresh())),`Type,false
+ (* TASSI non dovrebbe fare danni *)
(* *)
in
let add_inner_type id =
| _ -> "__" ^ string_of_int n
in
xxx_add ids_to_inner_sorts fresh_id'' innersort ;
- if innersort = "Prop" && expected_available then
+ if innersort = `Prop && expected_available then
add_inner_type fresh_id'' ;
C.ARel (fresh_id'', List.nth idrefs (n-1), n, id)
| C.Var (uri,exp_named_subst) ->
xxx_add ids_to_inner_sorts fresh_id'' innersort ;
- if innersort = "Prop" && expected_available then
+ if innersort = `Prop && expected_available then
add_inner_type fresh_id'' ;
let exp_named_subst' =
List.map
in
C.AVar (fresh_id'', uri,exp_named_subst')
| C.Meta (n,l) ->
- let (_,canonical_context,_) =
- List.find (function (m,_,_) -> n = m) metasenv
- in
+ let (_,canonical_context,_) = CicUtil.lookup_meta n metasenv in
xxx_add ids_to_inner_sorts fresh_id'' innersort ;
- if innersort = "Prop" && expected_available then
+ if innersort = `Prop && expected_available then
add_inner_type fresh_id'' ;
C.AMeta (fresh_id'', n,
(List.map2
| C.Implicit annotation -> C.AImplicit (fresh_id'', annotation)
| C.Cast (v,t) ->
xxx_add ids_to_inner_sorts fresh_id'' innersort ;
- if innersort = "Prop" then
+ if innersort = `Prop then
add_inner_type fresh_id'' ;
C.ACast (fresh_id'', aux' context idrefs v, aux' context idrefs t)
| C.Prod (n,s,t) ->
xxx_add ids_to_inner_sorts fresh_id''
- (string_of_sort innertype) ;
+ (sort_of innertype) ;
let sourcetype = xxx_type_of_aux' metasenv context s in
xxx_add ids_to_inner_sorts (source_id_of_id fresh_id'')
- (string_of_sort sourcetype) ;
+ (sort_of sourcetype) ;
let n' =
match n with
C.Anonymous -> n
xxx_add ids_to_inner_sorts fresh_id'' innersort ;
let sourcetype = xxx_type_of_aux' metasenv context s in
xxx_add ids_to_inner_sorts (source_id_of_id fresh_id'')
- (string_of_sort sourcetype) ;
- if innersort = "Prop" then
+ (sort_of sourcetype) ;
+ if innersort = `Prop then
begin
let father_is_lambda =
match father with
aux' ((Some (n, C.Decl s)::context)) (fresh_id''::idrefs) t)
| C.LetIn (n,s,t) ->
xxx_add ids_to_inner_sorts fresh_id'' innersort ;
- if innersort = "Prop" then
+ if innersort = `Prop then
add_inner_type fresh_id'' ;
C.ALetIn
(fresh_id'', n, aux' context idrefs s,
aux' ((Some (n, C.Def(s,None)))::context) (fresh_id''::idrefs) t)
| C.Appl l ->
xxx_add ids_to_inner_sorts fresh_id'' innersort ;
- if innersort = "Prop" then
+ if innersort = `Prop then
add_inner_type fresh_id'' ;
C.AAppl (fresh_id'', List.map (aux' context idrefs) l)
| C.Const (uri,exp_named_subst) ->
xxx_add ids_to_inner_sorts fresh_id'' innersort ;
- if innersort = "Prop" && expected_available then
+ if innersort = `Prop && expected_available then
add_inner_type fresh_id'' ;
let exp_named_subst' =
List.map
C.AMutInd (fresh_id'', uri, tyno, exp_named_subst')
| C.MutConstruct (uri,tyno,consno,exp_named_subst) ->
xxx_add ids_to_inner_sorts fresh_id'' innersort ;
- if innersort = "Prop" && expected_available then
+ if innersort = `Prop && expected_available then
add_inner_type fresh_id'' ;
let exp_named_subst' =
List.map
C.AMutConstruct (fresh_id'', uri, tyno, consno, exp_named_subst')
| C.MutCase (uri, tyno, outty, term, patterns) ->
xxx_add ids_to_inner_sorts fresh_id'' innersort ;
- if innersort = "Prop" then
+ if innersort = `Prop then
add_inner_type fresh_id'' ;
C.AMutCase (fresh_id'', uri, tyno, aux' context idrefs outty,
aux' context idrefs term, List.map (aux' context idrefs) patterns)
List.map (fun (name,_,ty,_) -> Some (C.Name name, C.Decl ty)) funs
in
xxx_add ids_to_inner_sorts fresh_id'' innersort ;
- if innersort = "Prop" then
+ if innersort = `Prop then
add_inner_type fresh_id'' ;
C.AFix (fresh_id'', funno,
List.map2
List.map (fun (name,ty,_) -> Some (C.Name name, C.Decl ty)) funs
in
xxx_add ids_to_inner_sorts fresh_id'' innersort ;
- if innersort = "Prop" then
+ if innersort = `Prop then
add_inner_type fresh_id'' ;
C.ACoFix (fresh_id'', funno,
List.map2
) fresh_idrefs funs
)
in
+(*
let timea = Sys.time () in
let res = aux true None context idrefs t in
let timeb = Sys.time () in
prerr_endline
("+++++++++++++ Tempi della aux dentro alla acic_of_cic: "^ string_of_float (timeb -. timea)) ;
res
+*)
+ aux true None context idrefs t
;;
let acic_of_cic_context metasenv context idrefs t =
let aconjecture_of_conjecture' = aconjecture_of_conjecture seed
ids_to_terms ids_to_father_ids ids_to_inner_sorts ids_to_inner_types
ids_to_hypotheses hypotheses_seed in
- let eta_fix metasenv t =
- if eta_fix then E.eta_fix metasenv t else t
+ let eta_fix metasenv context t =
+ if eta_fix then E.eta_fix metasenv context t else t
in
let aobj =
match obj with
- C.Constant (id,Some bo,ty,params) ->
- let bo' = eta_fix [] bo in
- let ty' = eta_fix [] ty in
+ C.Constant (id,Some bo,ty,params,attrs) ->
+ let bo' = eta_fix [] [] bo in
+ let ty' = eta_fix [] [] ty in
let abo = acic_term_of_cic_term' bo' (Some ty') in
let aty = acic_term_of_cic_term' ty' None in
C.AConstant
- ("mettereaposto",Some "mettereaposto2",id,Some abo,aty,params)
- | C.Constant (id,None,ty,params) ->
- let ty' = eta_fix [] ty in
+ ("mettereaposto",Some "mettereaposto2",id,Some abo,aty,params,attrs)
+ | C.Constant (id,None,ty,params,attrs) ->
+ let ty' = eta_fix [] [] ty in
let aty = acic_term_of_cic_term' ty' None in
C.AConstant
- ("mettereaposto",None,id,None,aty,params)
- | C.Variable (id,bo,ty,params) ->
- let ty' = eta_fix [] ty in
+ ("mettereaposto",None,id,None,aty,params,attrs)
+ | C.Variable (id,bo,ty,params,attrs) ->
+ let ty' = eta_fix [] [] ty in
let abo =
match bo with
None -> None
| Some bo ->
- let bo' = eta_fix [] bo in
+ let bo' = eta_fix [] [] bo in
Some (acic_term_of_cic_term' bo' (Some ty'))
in
let aty = acic_term_of_cic_term' ty' None in
C.AVariable
- ("mettereaposto",id,abo,aty, params)
- | C.CurrentProof (id,conjectures,bo,ty,params) ->
+ ("mettereaposto",id,abo,aty,params,attrs)
+ | C.CurrentProof (id,conjectures,bo,ty,params,attrs) ->
let conjectures' =
- (*CSC: This code is bugged, since it does a List.map instead
- * of a List.fold, withouth calling eta_fixing with the
- * current context. Indeed, eta_fix always starts now in the
- * empty context. Instead of fixing this piece of code and
- * adding a new argument to eta_fix, I just skip eta_fixing
- * of the CurrentProof metasenv. Does this break well-typedness?
List.map
(function (i,canonical_context,term) ->
let canonical_context' =
- List.map
- (function
- None -> None
- | Some (n, C.Decl t)-> Some (n, C.Decl (eta_fix conjectures t))
- | Some (n, C.Def (t,None)) ->
- Some (n, C.Def ((eta_fix conjectures t),None))
- | Some (_,C.Def (_,Some _)) -> assert false
- ) canonical_context
+ List.fold_right
+ (fun d canonical_context' ->
+ let d' =
+ match d with
+ None -> None
+ | Some (n, C.Decl t)->
+ Some (n, C.Decl (eta_fix conjectures canonical_context' t))
+ | Some (n, C.Def (t,None)) ->
+ Some (n,
+ C.Def ((eta_fix conjectures canonical_context' t),None))
+ | Some (_,C.Def (_,Some _)) -> assert false
+ in
+ d::canonical_context'
+ ) [] canonical_context
in
- let term' = eta_fix conjectures term in
+ let term' = eta_fix conjectures canonical_context' term in
(i,canonical_context',term')
- ) conjectures *)
- conjectures
+ ) conjectures
in
let aconjectures =
List.map
in
(cid,i,(List.rev revacanonical_context),aterm)
) conjectures' in *)
- let time1 = Sys.time () in
- let bo' = eta_fix conjectures' bo in
- let ty' = eta_fix conjectures' ty in
+(* let time1 = Sys.time () in *)
+ let bo' = eta_fix conjectures' [] bo in
+ let ty' = eta_fix conjectures' [] ty in
+(*
let time2 = Sys.time () in
prerr_endline
("++++++++++ Tempi della eta_fix: "^ string_of_float (time2 -. time1)) ;
hashtbl_add_time := 0.0 ;
type_of_aux'_add_time := 0.0 ;
DoubleTypeInference.syntactic_equality_add_time := 0.0 ;
+*)
let abo =
acic_term_of_cic_term_context' conjectures' [] [] bo' (Some ty') in
let aty = acic_term_of_cic_term_context' conjectures' [] [] ty' None in
+(*
let time3 = Sys.time () in
prerr_endline
("++++++++++++ Tempi della hashtbl_add_time: " ^ string_of_float !hashtbl_add_time) ;
("++++++++++ Tempi della acic_of_cic: " ^ string_of_float (time3 -. time2)) ;
prerr_endline
("++++++++++ Numero di iterazioni della acic_of_cic: " ^ string_of_int !seed) ;
+*)
C.ACurrentProof
- ("mettereaposto","mettereaposto2",id,aconjectures,abo,aty,params)
- | C.InductiveDefinition (tys,params,paramsno) ->
+ ("mettereaposto","mettereaposto2",id,aconjectures,abo,aty,params,attrs)
+ | C.InductiveDefinition (tys,params,paramsno,attrs) ->
let context =
List.map
(fun (name,_,arity,_) -> Some (C.Name name, C.Decl arity)) tys in
(id,name,inductive,acic_term_of_cic_term' ty None,acons)
) (List.rev idrefs) tys
in
- C.AInductiveDefinition ("mettereaposto",atys,params,paramsno)
+ C.AInductiveDefinition ("mettereaposto",atys,params,paramsno,attrs)
in
aobj,ids_to_terms,ids_to_father_ids,ids_to_inner_sorts,ids_to_inner_types,
ids_to_conjectures,ids_to_hypotheses