let source_id_of_id id = "#source#" ^ id;;
-exception NotEnoughElements;;
+exception NotEnoughElements of string;;
(*CSC: cut&paste da cicPp.ml *)
(* get_nth l n returns the nth element of the list l if it exists or *)
(* raises NotEnoughElements if l has less than n elements *)
-let rec get_nth l n =
+let rec get_nth msg l n =
match (n,l) with
(1, he::_) -> he
- | (n, he::tail) when n > 1 -> get_nth tail (n-1)
- | (_,_) -> raise NotEnoughElements
+ | (n, he::tail) when n > 1 -> get_nth msg tail (n-1)
+ | (_,_) -> raise (NotEnoughElements msg)
;;
match tt with
C.Rel n ->
let id =
- match get_nth context n with
+ match get_nth "1" context n with
(Some (C.Name s,_)) -> s
| _ -> "__" ^ string_of_int n
in
(fresh_id'',n, aux' context idrefs s,
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
- 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)
+ let s_ty =
+ try
+ (cic_CicHash_find terms_to_types s).D.synthesized
+ with
+ Not_found ->
+ cicReduction_whd context (xxx_type_of_aux' metasenv context s);
+ in
+ xxx_add ids_to_inner_sorts fresh_id'' innersort ;
+ if innersort = `Prop then
+ add_inner_type fresh_id'' ;
+ C.ALetIn
+ (fresh_id'', n, aux' context idrefs s,
+ aux' ((Some (n, C.Def(s,Some s_ty)))::context) (fresh_id''::idrefs) t)
| C.Appl l ->
xxx_add ids_to_inner_sorts fresh_id'' innersort ;
if innersort = `Prop then
let fresh_idrefs =
List.map (function _ -> gen_id seed) funs in
let new_idrefs = List.rev fresh_idrefs @ idrefs in
- let tys =
- List.map (fun (name,_,ty,_) -> Some (C.Name name, C.Decl ty)) funs
+ let tys,_ =
+ List.fold_left
+ (fun (types,len) (n,_,ty,_) ->
+ (Some (C.Name n,(C.Decl (CicSubstitution.lift len ty)))::types,
+ len+1)
+ ) ([],0) funs
in
xxx_add ids_to_inner_sorts fresh_id'' innersort ;
if innersort = `Prop then
let fresh_idrefs =
List.map (function _ -> gen_id seed) funs in
let new_idrefs = List.rev fresh_idrefs @ idrefs in
- let tys =
- List.map (fun (name,ty,_) -> Some (C.Name name, C.Decl ty)) funs
+ let tys,_ =
+ List.fold_left
+ (fun (types,len) (n,ty,_) ->
+ (Some (C.Name n,(C.Decl (CicSubstitution.lift len ty)))::types,
+ len+1)
+ ) ([],0) funs
in
xxx_add ids_to_inner_sorts fresh_id'' innersort ;
if innersort = `Prop then
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 context t =
+ let eta_fix_and_unshare metasenv context t =
let t = if eta_fix then E.eta_fix metasenv context t else t in
Unshare.unshare t in
let aobj =
match obj with
C.Constant (id,Some bo,ty,params,attrs) ->
- let bo' = (*eta_fix [] []*) bo in
- let ty' = eta_fix [] [] ty in
+ let bo' = (*eta_fix_and_unshare[] [] bo*) Unshare.unshare bo in
+ let ty' = eta_fix_and_unshare [] [] ty in
let abo = acic_term_of_cic_term' ~computeinnertypes:true bo' (Some ty') in
let aty = acic_term_of_cic_term' ~computeinnertypes:false ty' None in
C.AConstant
("mettereaposto",Some "mettereaposto2",id,Some abo,aty,params,attrs)
| C.Constant (id,None,ty,params,attrs) ->
- let ty' = eta_fix [] [] ty in
+ let ty' = eta_fix_and_unshare [] [] ty in
let aty = acic_term_of_cic_term' ~computeinnertypes:false ty' None in
C.AConstant
("mettereaposto",None,id,None,aty,params,attrs)
| C.Variable (id,bo,ty,params,attrs) ->
- let ty' = eta_fix [] [] ty in
+ let ty' = eta_fix_and_unshare [] [] ty in
let abo =
match bo with
None -> None
| Some bo ->
- let bo' = eta_fix [] [] bo in
+ let bo' = eta_fix_and_unshare [] [] bo in
Some (acic_term_of_cic_term' ~computeinnertypes:true bo' (Some ty'))
in
let aty = acic_term_of_cic_term' ~computeinnertypes:false ty' None in
match d with
None -> None
| Some (n, C.Decl t)->
- Some (n, C.Decl (eta_fix conjectures canonical_context' t))
+ Some (n, C.Decl (eta_fix_and_unshare conjectures canonical_context' t))
| Some (n, C.Def (t,None)) ->
Some (n,
- C.Def ((eta_fix conjectures canonical_context' t),None))
+ C.Def ((eta_fix_and_unshare conjectures canonical_context' t),None))
| Some (_,C.Def (_,Some _)) -> assert false
in
d::canonical_context'
) canonical_context []
in
- let term' = eta_fix conjectures canonical_context' term in
+ let term' = eta_fix_and_unshare conjectures canonical_context' term in
(i,canonical_context',term')
) conjectures
in
= aconjecture_of_conjecture' conjectures conjecture in
(cid,i,acanonical_context,aterm))
conjectures' in
-(* let time1 = Sys.time () in *)
- let bo' = (*eta_fix conjectures' []*) bo in
- let ty' = eta_fix conjectures' [] ty in
+ (* let bo' = eta_fix conjectures' [] bo in *)
+ let bo' = bo in
+ let ty' = eta_fix_and_unshare conjectures' [] ty in
(*
let time2 = Sys.time () in
prerr_endline
match t with
C.Rel n ->
let idref,id =
- match get_nth context n with
+ match get_nth "2" context n with
idref,(Some (C.Name s,_)) -> idref,s
| idref,_ -> idref,"__" ^ string_of_int n
in
C.AMutCase (fresh_id, uri, tyno, aux context outty,
aux context term, List.map (aux context) patterns)
| C.Fix (funno, funs) ->
- let tys =
- List.map
- (fun (name,_,ty,_) -> mk_fresh_id (), Some (C.Name name, C.Decl ty)) funs
+ let tys,_ =
+ List.fold_left
+ (fun (types,len) (n,_,ty,_) ->
+ (mk_fresh_id (),(Some (C.Name n,(C.Decl (CicSubstitution.lift len ty)))))::types,
+ len+1
+ ) ([],0) funs
in
C.AFix (fresh_id, funno,
List.map2
) tys funs
)
| C.CoFix (funno, funs) ->
- let tys =
- List.map (fun (name,ty,_) ->
- mk_fresh_id (),Some (C.Name name, C.Decl ty)) funs
+ let tys,_ =
+ List.fold_left
+ (fun (types,len) (n,ty,_) ->
+ (mk_fresh_id (),(Some (C.Name n,(C.Decl (CicSubstitution.lift len ty)))))::types,
+ len+1
+ ) ([],0) funs
in
C.ACoFix (fresh_id, funno,
List.map2