--- /dev/null
+module Ref = NReference
+
+type ctx =
+ | Ce of NCic.hypothesis * NCic.obj list
+ | Fix of Ref.reference * string * NCic.term
+
+(***** A function to restrict the context of a term getting rid of unsed
+ variables *******)
+
+let restrict octx ctx ot =
+ let odummy = Cic.Implicit None in
+ let dummy = NCic.Meta (~-1,(0,NCic.Irl 0)) in
+ let rec aux m acc ot t =
+ function
+ [],[] -> (ot,t),acc
+ | ohe::otl as octx,he::tl ->
+ if CicTypeChecker.does_not_occur octx 0 1 ot then
+ aux (m+1) acc (CicSubstitution.subst odummy ot)
+ (NCicSubstitution.subst dummy t) (otl,tl)
+ else
+ (match ohe,he with
+ None,_ -> assert false
+ | Some (name,Cic.Decl oty),Ce ((name', NCic.Decl ty),objs) ->
+ aux (m+1) ((m+1,objs,None)::acc) (Cic.Lambda (name,oty,ot))
+ (NCic.Lambda (name',ty,t)) (otl,tl)
+ | Some (name,Cic.Decl oty),Fix (ref,name',ty) ->
+ aux (m+1) ((m+1,[],Some ref)::acc) (Cic.Lambda (name,oty,ot))
+ (NCic.Lambda (name',ty,t)) (otl,tl)
+ | Some (name,Cic.Def (obo,oty)),Ce ((name', NCic.Def (bo,ty)),objs) ->
+ aux (m+1) ((m+1,objs,None)::acc) (Cic.LetIn (name,obo,oty,ot))
+ (NCic.LetIn (name',bo,ty,t)) (otl,tl)
+ | _,_ -> assert false)
+ | _,_ -> assert false in
+ let rec split_lambdas_and_letins octx ctx infos (ote,te) =
+ match infos, ote, te with
+ ([], _, _) -> octx,ctx,ote
+ | ((_,objs,None)::tl, Cic.Lambda(name,oso,ota), NCic.Lambda(name',so,ta)) ->
+ split_lambdas_and_letins ((Some(name,(Cic.Decl oso)))::octx)
+ (Ce ((name',NCic.Decl so),objs)::ctx) tl (ota,ta)
+ | ((_,objs,Some r)::tl,Cic.Lambda(name,oso,ota),NCic.Lambda(name',so,ta)) ->
+ split_lambdas_and_letins ((Some(name,(Cic.Decl oso)))::octx)
+ (Fix (r,name',so)::ctx) tl (ota,ta)
+ | ((_,objs,None)::tl,Cic.LetIn(name,obo,oty,ota),NCic.LetIn(nam',bo,ty,ta))->
+ split_lambdas_and_letins ((Some (name,(Cic.Def (obo,oty))))::octx)
+ (Ce ((nam',NCic.Def (bo,ty)),objs)::ctx) tl (ota,ta)
+ | (_, _, _) -> assert false
+ in
+ let long_t,infos = aux 0 [] ot dummy (octx,ctx) in
+ let clean_octx,clean_ctx,clean_ot= split_lambdas_and_letins [] [] infos long_t
+ in
+(*prerr_endline ("RESTRICT PRIMA: " ^ CicPp.pp ot (List.map (function None -> None | Some (name,_) -> Some name) octx));
+prerr_endline ("RESTRICT DOPO: " ^ CicPp.pp clean_ot (List.map (function None -> None | Some (name,_) -> Some name) clean_octx));
+*)
+ clean_octx,clean_ctx,clean_ot, List.map (fun (rel,_,_) -> rel) infos
+;;
+
+
+(**** The translation itself ****)
+
+let cn_to_s = function
+ | Cic.Anonymous -> "_"
+ | Cic.Name s -> s
+;;
+
+let splat mk_pi ctx t =
+ List.fold_left
+ (fun (t,l) c ->
+ match c with
+ | Ce ((name, NCic.Def (bo,ty)),l') -> NCic.LetIn (name, ty, bo, t),l@l'
+ | Ce ((name, NCic.Decl ty),l') when mk_pi -> NCic.Prod (name, ty, t),l@l'
+ | Ce ((name, NCic.Decl ty),l') -> NCic.Lambda (name, ty, t),l@l'
+ | Fix (_,name,ty) when mk_pi -> NCic.Prod (name, ty, t),l
+ | Fix (_,name,ty) -> NCic.Lambda (name,ty,t),l)
+ (t,[]) ctx
+;;
+
+let context_tassonomy ctx =
+ let rec split inner acc acc1 = function
+ | Ce _ :: tl when inner -> split inner (acc+1) (acc1+1) tl
+ | Fix _ ::tl -> split false acc (acc1+1) tl
+ | _ as l ->
+ let only_decl =
+ List.filter
+ (function Ce ((_, NCic.Decl _),_) | Fix _ -> true | _ -> false) l
+ in
+ acc, List.length l, List.length only_decl, acc1
+ in
+ split true 0 1 ctx
+;;
+
+let splat_args_for_rel ctx t ?rels n_fix =
+ let rels =
+ match rels with
+ Some rels -> rels
+ | None ->
+ let rec mk_irl = function 0 -> [] | n -> n::mk_irl (n - 1) in
+ mk_irl (List.length ctx)
+ in
+ let bound, free, _, primo_ce_dopo_fix = context_tassonomy ctx in
+ if free = 0 then t
+ else
+ let rec aux = function
+ | n,_ when n = bound + n_fix -> []
+ | n,he::tl ->
+ (match List.nth ctx (n-1) with
+ | Fix (refe, _, _) when n < primo_ce_dopo_fix ->
+ NCic.Const refe :: aux (n-1,tl)
+ | Fix _ | Ce ((_, NCic.Decl _),_)-> NCic.Rel (he - n_fix)::aux(n-1,tl)
+ | Ce ((_, NCic.Def _),_) -> aux (n-1,tl))
+ | _,_ -> assert false
+ in
+ NCic.Appl (t:: aux (List.length ctx,rels))
+;;
+
+let splat_args ctx t n_fix rels =
+ let bound, free, _, primo_ce_dopo_fix = context_tassonomy ctx in
+ if ctx = [] then t
+ else
+ let rec aux = function
+ | 0,[] -> []
+ | n,he::tl ->
+ (match List.nth ctx (n-1) with
+ | Ce ((_, NCic.Decl _),_) when n <= bound -> NCic.Rel he:: aux (n-1,tl)
+ | Fix (refe, _, _) when n < primo_ce_dopo_fix ->
+ splat_args_for_rel ctx (NCic.Const refe) ~rels n_fix :: aux (n-1,tl)
+ | Fix _ | Ce ((_, NCic.Decl _),_) -> NCic.Rel (he - n_fix)::aux(n-1,tl)
+ | Ce ((_, NCic.Def _),_) -> aux (n - 1,tl)
+ )
+ | _,_ -> assert false
+ in
+ NCic.Appl (t:: aux ((List.length ctx,rels)))
+;;
+
+exception Nothing_to_do;;
+
+let fix_outty curi tyno t context outty =
+ let leftno,rightno =
+ match fst (CicEnvironment.get_obj CicUniv.oblivion_ugraph curi) with
+ Cic.InductiveDefinition (tyl,_,leftno,_) ->
+ let _,_,arity,_ = List.nth tyl tyno in
+ let rec count_prods leftno context arity =
+ match leftno, CicReduction.whd context arity with
+ 0, Cic.Sort _ -> 0
+ | 0, Cic.Prod (name,so,ty) ->
+ 1 + count_prods 0 (Some (name, Cic.Decl so)::context) ty
+ | n, Cic.Prod (name,so,ty) ->
+ count_prods (leftno - 1) (Some (name, Cic.Decl so)::context) ty
+ | _,_ -> assert false
+ in
+(*prerr_endline (UriManager.string_of_uri curi);
+prerr_endline ("LEFTNO: " ^ string_of_int leftno ^ " " ^ CicPp.ppterm arity);*)
+ leftno, count_prods leftno [] arity
+ | _ -> assert false in
+ let ens,args =
+ let tty,_= CicTypeChecker.type_of_aux' [] context t CicUniv.oblivion_ugraph in
+ match CicReduction.whd context tty with
+ Cic.MutInd (_,_,ens) -> ens,[]
+ | Cic.Appl (Cic.MutInd (_,_,ens)::args) ->
+ ens,fst (HExtlib.split_nth leftno args)
+ | _ -> assert false
+ in
+ let rec aux n irl context outsort =
+ match n, CicReduction.whd context outsort with
+ 0, Cic.Prod _ -> raise Nothing_to_do
+ | 0, _ ->
+ let irl = List.rev irl in
+ let ty = CicSubstitution.lift rightno (Cic.MutInd (curi,tyno,ens)) in
+ let ty =
+ if args = [] && irl = [] then ty
+ else
+ Cic.Appl (ty::(List.map (CicSubstitution.lift rightno) args)@irl) in
+ let he = CicSubstitution.lift (rightno + 1) outty in
+ let t =
+ if irl = [] then he
+ else Cic.Appl (he::List.map (CicSubstitution.lift 1) irl)
+ in
+ Cic.Lambda (Cic.Anonymous, ty, t)
+ | n, Cic.Prod (name,so,ty) ->
+ let ty' =
+ aux (n - 1) (Cic.Rel n::irl) (Some (name, Cic.Decl so)::context) ty
+ in
+ Cic.Lambda (name,so,ty')
+ | _,_ -> assert false
+ in
+(*prerr_endline ("RIGHTNO = " ^ string_of_int rightno ^ " OUTTY = " ^ CicPp.ppterm outty);*)
+ let outsort =
+ fst (CicTypeChecker.type_of_aux' [] context outty CicUniv.oblivion_ugraph)
+ in
+ try aux rightno [] context outsort
+ with Nothing_to_do -> outty
+(*prerr_endline (CicPp.ppterm outty ^ " <==> " ^ CicPp.ppterm outty');*)
+;;
+
+let fix_outtype t =
+ let module C = Cic in
+ let rec aux context =
+ function
+ C.Rel _ as t -> t
+ | C.Var (uri,exp_named_subst) ->
+ let exp_named_subst' =
+ List.map (function i,t -> i, (aux context t)) exp_named_subst in
+ C.Var (uri,exp_named_subst')
+ | C.Implicit _
+ | C.Meta _ -> assert false
+ | C.Sort _ as t -> t
+ | C.Cast (v,t) -> C.Cast (aux context v, aux context t)
+ | C.Prod (n,s,t) ->
+ C.Prod (n, aux context s, aux ((Some (n, C.Decl s))::context) t)
+ | C.Lambda (n,s,t) ->
+ C.Lambda (n, aux context s, aux ((Some (n, C.Decl s))::context) t)
+ | C.LetIn (n,s,ty,t) ->
+ C.LetIn
+ (n, aux context s, aux context ty,
+ aux ((Some (n, C.Def(s,ty)))::context) t)
+ | C.Appl l -> C.Appl (List.map (aux context) l)
+ | C.Const (uri,exp_named_subst) ->
+ let exp_named_subst' =
+ List.map (function i,t -> i, (aux context t)) exp_named_subst
+ in
+ C.Const (uri,exp_named_subst')
+ | C.MutInd (uri,tyno,exp_named_subst) ->
+ let exp_named_subst' =
+ List.map (function i,t -> i, (aux context t)) exp_named_subst
+ in
+ C.MutInd (uri, tyno, exp_named_subst')
+ | C.MutConstruct (uri,tyno,consno,exp_named_subst) ->
+ let exp_named_subst' =
+ List.map (function i,t -> i, (aux context t)) exp_named_subst
+ in
+ C.MutConstruct (uri, tyno, consno, exp_named_subst')
+ | C.MutCase (uri, tyno, outty, term, patterns) ->
+ let outty = fix_outty uri tyno term context outty in
+ C.MutCase (uri, tyno, aux context outty,
+ aux context term, List.map (aux context) patterns)
+ | C.Fix (funno, 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
+ C.Fix (funno,
+ List.map
+ (fun (name, indidx, ty, bo) ->
+ (name, indidx, aux context ty, aux (tys@context) bo)
+ ) funs
+ )
+ | C.CoFix (funno, 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
+ C.CoFix (funno,
+ List.map
+ (fun (name, ty, bo) ->
+ (name, aux context ty, aux (tys@context) bo)
+ ) funs
+ )
+ in
+ aux [] t
+;;
+
+let get_fresh,reset_seed =
+ let seed = ref 0 in
+ (function () ->
+ incr seed;
+ string_of_int !seed),
+ (function () -> seed := 0)
+;;
+
+exception NotSimilar
+let alpha t1 t2 ref ref' =
+ let rec aux t1 t2 = match t1,t2 with
+ | NCic.Rel n, NCic.Rel m when n=m -> ()
+ | NCic.Appl l1, NCic.Appl l2 -> List.iter2 aux l1 l2
+ | NCic.Lambda (_,s1,t1), NCic.Lambda (_,s2,t2)
+ | NCic.Prod (_,s1,t1), NCic.Prod (_,s2,t2) -> aux s1 s2; aux t1 t2
+ | NCic.LetIn (_,s1,ty1,t1), NCic.LetIn (_,s2,ty2,t2) ->
+ aux s1 s2; aux ty1 ty2; aux t1 t2
+ | NCic.Const (NReference.Ref (_,uu1,xp1)),
+ NCic.Const (NReference.Ref (_,uu2,xp2)) when
+ let NReference.Ref (_,u1,_) = ref in
+ let NReference.Ref (_,u2,_) = ref' in
+ NUri.eq uu1 u1 && NUri.eq uu2 u2 && xp1 = xp2
+ -> ()
+ | NCic.Const r1, NCic.Const r2 when NReference.eq r1 r2 -> ()
+ | NCic.Meta _,NCic.Meta _ -> ()
+ | NCic.Implicit _,NCic.Implicit _ -> ()
+ | NCic.Sort x,NCic.Sort y when x=y -> ()
+ | NCic.Match (_,t1,t11,tl1), NCic.Match (_,t2,t22,tl2) ->
+ aux t1 t2;aux t11 t22;List.iter2 aux tl1 tl2
+ | _-> raise NotSimilar
+ in
+ try aux t1 t2; true with NotSimilar -> false
+;;
+
+exception Found of NReference.reference;;
+let cache = Hashtbl.create 313;;
+let same_obj ref ref' =
+ function
+ | (_,_,_,_,NCic.Fixpoint (_,l1,_)), (_,_,_,_,NCic.Fixpoint (_,l2,_))
+ when List.for_all2 (fun (_,_,_,ty1,bo1) (_,_,_,ty2,bo2) ->
+ alpha ty1 ty2 ref ref' && alpha bo1 bo2 ref ref') l1 l2 ->
+ true
+ | _ -> false
+;;
+let find_in_cache name obj ref =
+ try
+ List.iter
+ (function (ref',obj') ->
+ let recno, fixno =
+ match ref with
+ NReference.Ref (_,_,NReference.Fix (fixno,recno)) -> recno,fixno
+ | _ -> assert false in
+ let recno',fixno' =
+ match ref' with
+ NReference.Ref (_,_,NReference.Fix (fixno',recno)) -> recno,fixno'
+ | _ -> assert false in
+ if recno = recno' && fixno = fixno' && same_obj ref ref' (obj,obj') then (
+(*
+prerr_endline ("!!!!!!!!!!! CACHE HIT !!!!!!!!!!\n" ^
+NReference.string_of_reference ref ^ "\n" ^
+NReference.string_of_reference ref' ^ "\n");
+ *)
+ raise (Found ref'));
+(*
+prerr_endline ("CACHE SAME NAME: " ^ NReference.string_of_reference ref ^ " <==> " ^ NReference.string_of_reference ref');
+ *)
+ ) (Hashtbl.find_all cache name);
+(* prerr_endline "<<< CACHE MISS >>>"; *)
+ begin
+ match obj, ref with
+ | (_,_,_,_,NCic.Fixpoint (true,fl,_)) , NReference.Ref (x,y,NReference.Fix _) ->
+ ignore(List.fold_left (fun i (_,name,rno,_,_) ->
+ let ref = NReference.mk_fix i rno ref in
+ Hashtbl.add cache name (ref,obj);
+ i+1
+ ) 0 fl)
+ | _ -> assert false
+ end;
+ None
+ with Found ref -> Some ref
+;;
+
+(* we are lambda-lifting also variables that do not occur *)
+(* ctx does not distinguish successive blocks of cofix, since there may be no
+ * lambda separating them *)
+let convert_term uri t =
+ (* k=true if we are converting a term to be pushed in a ctx or if we are
+ converting the type of a fix;
+ k=false if we are converting a term to be put in the body of a fix;
+ in the latter case, we must permute Rels since the Fix abstraction will
+ preceed its lefts parameters; in the former case, there is nothing to
+ permute *)
+ let rec aux k octx (ctx : ctx list) n_fix uri = function
+ | Cic.CoFix _ as cofix ->
+ let octx,ctx,fix,rels = restrict octx ctx cofix in
+ let cofixno,fl =
+ match fix with Cic.CoFix (cofixno,fl)->cofixno,fl | _-> assert false in
+ let buri =
+ UriManager.uri_of_string
+ (UriManager.buri_of_uri uri^"/"^
+ UriManager.name_of_uri uri ^ "___" ^ get_fresh () ^ ".con")
+ in
+ let bctx, fixpoints_tys, tys, _ =
+ List.fold_right
+ (fun (name,ty,_) (bctx, fixpoints, tys, idx) ->
+ let ty, fixpoints_ty = aux true octx ctx n_fix uri ty in
+ let r = Ref.reference_of_ouri buri(Ref.CoFix idx) in
+ bctx @ [Fix (r,name,ty)], fixpoints_ty @ fixpoints,ty::tys,idx-1)
+ fl ([], [], [], List.length fl-1)
+ in
+ let bctx = bctx @ ctx in
+ let n_fl = List.length fl in
+ let boctx,_ =
+ List.fold_left
+ (fun (types,len) (n,ty,_) ->
+ (Some (Cic.Name n,(Cic.Decl (CicSubstitution.lift len ty)))::types,
+ len+1)) (octx,0) fl
+ in
+ let fl, fixpoints =
+ List.fold_right2
+ (fun (name,_,bo) ty (l,fixpoints) ->
+ let bo, fixpoints_bo = aux false boctx bctx n_fl buri bo in
+ let splty,fixpoints_splty = splat true ctx ty in
+ let splbo,fixpoints_splbo = splat false ctx bo in
+ (([],name,~-1,splty,splbo)::l),
+ fixpoints_bo @ fixpoints_splty @ fixpoints_splbo @ fixpoints)
+ fl tys ([],fixpoints_tys)
+ in
+ let obj =
+ NUri.nuri_of_ouri buri,0,[],[],
+ NCic.Fixpoint (false, fl, (`Generated, `Definition))
+ in
+ splat_args ctx
+ (NCic.Const (Ref.reference_of_ouri buri (Ref.CoFix cofixno)))
+ n_fix rels,
+ fixpoints @ [obj]
+ | Cic.Fix _ as fix ->
+ let octx,ctx,fix,rels = restrict octx ctx fix in
+ let fixno,fl =
+ match fix with Cic.Fix (fixno,fl) -> fixno,fl | _ -> assert false in
+ let buri =
+ UriManager.uri_of_string
+ (UriManager.buri_of_uri uri^"/"^
+ UriManager.name_of_uri uri ^ "___" ^ get_fresh () ^ ".con")
+ in
+ let bad_bctx, fixpoints_tys, tys, _ =
+ List.fold_right
+ (fun (name,recno,ty,_) (bctx, fixpoints, tys, idx) ->
+ let ty, fixpoints_ty = aux true octx ctx n_fix uri ty in
+ let r = (* recno is dummy here, must be lifted by the ctx len *)
+ Ref.reference_of_ouri buri (Ref.Fix (idx,recno))
+ in
+ bctx @ [Fix (r,name,ty)], fixpoints_ty@fixpoints,ty::tys,idx-1)
+ fl ([], [], [], List.length fl-1)
+ in
+ let _, _, free_decls, _ = context_tassonomy (bad_bctx @ ctx) in
+ let bctx =
+ List.map (function
+ | Fix (Ref.Ref (_,_,Ref.Fix (idx, recno)),name, ty) ->
+ Fix (Ref.reference_of_ouri buri
+ (Ref.Fix (idx,recno+free_decls)),name,ty)
+ | _ -> assert false) bad_bctx @ ctx
+ in
+ let n_fl = List.length fl in
+ let boctx,_ =
+ List.fold_left
+ (fun (types,len) (n,_,ty,_) ->
+ (Some (Cic.Name n,(Cic.Decl (CicSubstitution.lift len ty)))::types,
+ len+1)) (octx,0) fl
+ in
+ let rno_fixno = ref 0 in
+ let fl, fixpoints,_ =
+ List.fold_right2
+ (fun (name,rno,_,bo) ty (l,fixpoints,idx) ->
+ let bo, fixpoints_bo = aux false boctx bctx n_fl buri bo in
+ let splty,fixpoints_splty = splat true ctx ty in
+ let splbo,fixpoints_splbo = splat false ctx bo in
+ let rno = rno + free_decls in
+ if idx = fixno then rno_fixno := rno;
+ (([],name,rno,splty,splbo)::l),
+ fixpoints_bo@fixpoints_splty@fixpoints_splbo@fixpoints,idx+1)
+ fl tys ([],fixpoints_tys,0)
+ in
+ let obj =
+ NUri.nuri_of_ouri buri,max_int,[],[],
+ NCic.Fixpoint (true, fl, (`Generated, `Definition)) in
+ let r = Ref.reference_of_ouri buri (Ref.Fix (fixno,!rno_fixno)) in
+ let obj,r =
+ let _,name,_,_,_ = List.nth fl fixno in
+ match find_in_cache name obj r with
+ Some r' -> [],r'
+ | None -> [obj],r
+ in
+ splat_args ctx (NCic.Const r) n_fix rels, fixpoints @ obj
+ | Cic.Rel n ->
+ let bound, _, _, primo_ce_dopo_fix = context_tassonomy ctx in
+ (match List.nth ctx (n-1) with
+ | Fix (r,_,_) when n < primo_ce_dopo_fix ->
+ splat_args_for_rel ctx (NCic.Const r) n_fix, []
+ | Ce _ when n <= bound -> NCic.Rel n, []
+ | Fix _ when n <= bound -> assert false
+ | Fix _ | Ce _ when k = true -> NCic.Rel n, []
+ | Fix _ | Ce _ -> NCic.Rel (n-n_fix), [])
+ | Cic.Lambda (name, (s as old_s), t) ->
+ let s, fixpoints_s = aux k octx ctx n_fix uri s in
+ let s', fixpoints_s' = aux true octx ctx n_fix uri old_s in
+ let ctx = Ce ((cn_to_s name, NCic.Decl s'),fixpoints_s') :: ctx in
+ let octx = Some (name, Cic.Decl old_s) :: octx in
+ let t, fixpoints_t = aux k octx ctx n_fix uri t in
+ NCic.Lambda (cn_to_s name, s, t), fixpoints_s @ fixpoints_t
+ | Cic.Prod (name, (s as old_s), t) ->
+ let s, fixpoints_s = aux k octx ctx n_fix uri s in
+ let s', fixpoints_s' = aux true octx ctx n_fix uri old_s in
+ let ctx = Ce ((cn_to_s name, NCic.Decl s'),fixpoints_s') :: ctx in
+ let octx = Some (name, Cic.Decl old_s) :: octx in
+ let t, fixpoints_t = aux k octx ctx n_fix uri t in
+ NCic.Prod (cn_to_s name, s, t), fixpoints_s @ fixpoints_t
+ | Cic.LetIn (name, (te as old_te), (ty as old_ty), t) ->
+ let te, fixpoints_s = aux k octx ctx n_fix uri te in
+ let te', fixpoints_s' = aux true octx ctx n_fix uri old_te in
+ let ty, fixpoints_ty = aux k octx ctx n_fix uri ty in
+ let ty', fixpoints_ty' = aux true octx ctx n_fix uri old_ty in
+ let fixpoints' = fixpoints_s' @ fixpoints_ty' in
+ let ctx = Ce ((cn_to_s name, NCic.Def (te', ty')),fixpoints') :: ctx in
+ let octx = Some (name, Cic.Def (old_te, old_ty)) :: octx in
+ let t, fixpoints_t = aux k octx ctx n_fix uri t in
+ NCic.LetIn (cn_to_s name, ty, te, t),
+ fixpoints_s @ fixpoints_t @ fixpoints_ty
+ | Cic.Cast (t,ty) ->
+ let t, fixpoints_t = aux k octx ctx n_fix uri t in
+ let ty, fixpoints_ty = aux k octx ctx n_fix uri ty in
+ NCic.LetIn ("cast", ty, t, NCic.Rel 1), fixpoints_t @ fixpoints_ty
+ | Cic.Sort Cic.Prop -> NCic.Sort NCic.Prop,[]
+ | Cic.Sort Cic.CProp -> NCic.Sort NCic.CProp,[]
+ | Cic.Sort (Cic.Type u) ->
+ NCic.Sort (NCic.Type (CicUniv.get_rank u)),[]
+ | Cic.Sort Cic.Set -> NCic.Sort (NCic.Type 0),[]
+ (* calculate depth in the univ_graph*)
+ | Cic.Appl l ->
+ let l, fixpoints =
+ List.fold_right
+ (fun t (l,acc) ->
+ let t, fixpoints = aux k octx ctx n_fix uri t in
+ (t::l,fixpoints@acc))
+ l ([],[])
+ in
+ (match l with
+ | (NCic.Appl l1)::l2 -> NCic.Appl (l1@l2), fixpoints
+ | _ -> NCic.Appl l, fixpoints)
+ | Cic.Const (curi, ens) ->
+ aux_ens k curi octx ctx n_fix uri ens
+ (match fst(CicEnvironment.get_obj CicUniv.oblivion_ugraph curi) with
+ | Cic.Constant (_,Some _,_,_,_) ->
+ NCic.Const (Ref.reference_of_ouri curi Ref.Def)
+ | Cic.Constant (_,None,_,_,_) ->
+ NCic.Const (Ref.reference_of_ouri curi Ref.Decl)
+ | _ -> assert false)
+ | Cic.MutInd (curi, tyno, ens) ->
+ aux_ens k curi octx ctx n_fix uri ens
+ (NCic.Const (Ref.reference_of_ouri curi (Ref.Ind tyno)))
+ | Cic.MutConstruct (curi, tyno, consno, ens) ->
+ aux_ens k curi octx ctx n_fix uri ens
+ (NCic.Const (Ref.reference_of_ouri curi (Ref.Con (tyno,consno))))
+ | Cic.Var (curi, ens) ->
+ (match fst (CicEnvironment.get_obj CicUniv.oblivion_ugraph curi) with
+ Cic.Variable (_,Some bo,_,_,_) ->
+ aux k octx ctx n_fix uri (CicSubstitution.subst_vars ens bo)
+ | _ -> assert false)
+ | Cic.MutCase (curi, tyno, outty, t, branches) ->
+ let r = Ref.reference_of_ouri curi (Ref.Ind tyno) in
+ let outty, fixpoints_outty = aux k octx ctx n_fix uri outty in
+ let t, fixpoints_t = aux k octx ctx n_fix uri t in
+ let branches, fixpoints =
+ List.fold_right
+ (fun t (l,acc) ->
+ let t, fixpoints = aux k octx ctx n_fix uri t in
+ (t::l,fixpoints@acc))
+ branches ([],[])
+ in
+ NCic.Match (r,outty,t,branches), fixpoints_outty@fixpoints_t@fixpoints
+ | Cic.Implicit _ | Cic.Meta _ -> assert false
+ and aux_ens k curi octx ctx n_fix uri ens he =
+ match ens with
+ [] -> he,[]
+ | _::_ ->
+ let params =
+ match fst (CicEnvironment.get_obj CicUniv.oblivion_ugraph curi) with
+ Cic.Constant (_,_,_,params,_)
+ | Cic.InductiveDefinition (_,params,_,_) -> params
+ | Cic.Variable _
+ | Cic.CurrentProof _ -> assert false
+ in
+ let ens,objs =
+ List.fold_right
+ (fun luri (l,objs) ->
+ match fst (CicEnvironment.get_obj CicUniv.oblivion_ugraph luri) with
+ Cic.Variable (_,Some _,_,_,_) -> l, objs
+ | Cic.Variable (_,None,_,_,_) ->
+ let t = List.assoc luri ens in
+ let t,o = aux k octx ctx n_fix uri t in
+ t::l, o@objs
+ | _ -> assert false
+ ) params ([],[])
+ in
+ NCic.Appl (he::ens),objs
+ in
+ aux false [] [] 0 uri t
+;;
+
+let cook mode vars t =
+ let t = fix_outtype t in
+ let varsno = List.length vars in
+ let t = CicSubstitution.lift varsno t in
+ let rec aux n acc l =
+ let subst =
+ snd(List.fold_left (fun (i,res) uri -> i+1,(uri,Cic.Rel i)::res) (1,[]) acc)
+ in
+ match l with
+ [] -> CicSubstitution.subst_vars subst t
+ | uri::uris ->
+ let bo,ty =
+ match fst (CicEnvironment.get_obj CicUniv.oblivion_ugraph uri) with
+ Cic.Variable (_,bo,ty,_,_) ->
+ HExtlib.map_option fix_outtype bo, fix_outtype ty
+ | _ -> assert false in
+ let ty = CicSubstitution.subst_vars subst ty in
+ let bo = HExtlib.map_option (CicSubstitution.subst_vars subst) bo in
+ let id = Cic.Name (UriManager.name_of_uri uri) in
+ let t = aux (n-1) (uri::acc) uris in
+ match bo,ty,mode with
+ None,ty,`Lambda -> Cic.Lambda (id,ty,t)
+ | None,ty,`Pi -> Cic.Prod (id,ty,t)
+ | Some bo,ty,_ -> Cic.LetIn (id,bo,ty,t)
+ in
+ aux varsno [] vars
+;;
+
+let convert_obj_aux uri = function
+ | Cic.Constant (name, None, ty, vars, _) ->
+ let ty = cook `Pi vars ty in
+ let nty, fixpoints = convert_term uri ty in
+ assert(fixpoints = []);
+ NCic.Constant ([], name, None, nty, (`Provided,`Theorem,`Regular)),
+ fixpoints
+ | Cic.Constant (name, Some bo, ty, vars, _) ->
+ let bo = cook `Lambda vars bo in
+ let ty = cook `Pi vars ty in
+ let nbo, fixpoints_bo = convert_term uri bo in
+ let nty, fixpoints_ty = convert_term uri ty in
+ assert(fixpoints_ty = []);
+ NCic.Constant ([], name, Some nbo, nty, (`Provided,`Theorem,`Regular)),
+ fixpoints_bo @ fixpoints_ty
+ | Cic.InductiveDefinition (itl,vars,leftno,_) ->
+ let ind = let _,x,_,_ = List.hd itl in x in
+ let itl, fix_itl =
+ List.fold_right
+ (fun (name, _, ty, cl) (itl,acc) ->
+ let ty = cook `Pi vars ty in
+ let ty, fix_ty = convert_term uri ty in
+ let cl, fix_cl =
+ List.fold_right
+ (fun (name, ty) (cl,acc) ->
+ let ty = cook `Pi vars ty in
+ let ty, fix_ty = convert_term uri ty in
+ ([], name, ty)::cl, acc @ fix_ty)
+ cl ([],[])
+ in
+ ([], name, ty, cl)::itl, fix_ty @ fix_cl @ acc)
+ itl ([],[])
+ in
+ NCic.Inductive(ind, leftno + List.length
+ (List.filter (fun v ->
+ match fst (CicEnvironment.get_obj CicUniv.oblivion_ugraph v) with
+ Cic.Variable (_,Some _,_,_,_) -> false
+ | Cic.Variable (_,None,_,_,_) -> true
+ | _ -> assert false)
+ vars)
+ , itl, (`Provided, `Regular)),
+ fix_itl
+ | Cic.Variable _
+ | Cic.CurrentProof _ -> assert false
+;;
+
+let convert_obj uri obj =
+ reset_seed ();
+ let o, fixpoints = convert_obj_aux uri obj in
+ let obj = NUri.nuri_of_ouri uri,max_int, [], [], o in
+ fixpoints @ [obj]
+;;
projects / helm.git / blobdiff