* http://helm.cs.unibo.it/
*)
+(* $Id$ *)
+
open Printf
exception Meta_not_found of int
| Cic.Lambda (_,so,dest) -> is_meta_closed so && is_meta_closed dest
| Cic.LetIn (_,so,dest) -> is_meta_closed so && is_meta_closed dest
| Cic.Appl l ->
- List.fold_right (fun x i -> i && is_meta_closed x) l true
+ not (List.exists (fun x -> not (is_meta_closed x)) l)
| Cic.Var (_,exp_named_subst)
| Cic.Const (_,exp_named_subst)
| Cic.MutInd (_,_,exp_named_subst)
| Cic.MutConstruct (_,_,_,exp_named_subst) ->
- List.fold_right (fun (_,x) i -> i && is_meta_closed x)
- exp_named_subst true
+ not (List.exists (fun (_,x) -> not (is_meta_closed x)) exp_named_subst)
| Cic.MutCase (_,_,out,te,pl) ->
is_meta_closed out && is_meta_closed te &&
- List.fold_right (fun x i -> i && is_meta_closed x) pl true
+ not (List.exists (fun x -> not (is_meta_closed x)) pl)
| Cic.Fix (_,fl) ->
- List.fold_right
- (fun (_,_,ty,bo) i -> i && is_meta_closed ty && is_meta_closed bo
- ) fl true
+ not (List.exists
+ (fun (_,_,ty,bo) ->
+ not (is_meta_closed ty) || not (is_meta_closed bo))
+ fl)
| Cic.CoFix (_,fl) ->
- List.fold_right
- (fun (_,ty,bo) i -> i && is_meta_closed ty && is_meta_closed bo
- ) fl true
+ not (List.exists
+ (fun (_,ty,bo) ->
+ not (is_meta_closed ty) || not (is_meta_closed bo))
+ fl)
;;
let xpointer_RE = Str.regexp "\\([^#]+\\)#xpointer(\\(.*\\))"
| 0 -> []
| _ -> (Cic.Rel (howmany + from)) :: (mk_rels (howmany-1) from)
-let profile =
- function s ->
- let total = ref 0.0 in
- let profile f x =
- let before = Unix.gettimeofday () in
- let res = f x in
- let after = Unix.gettimeofday () in
- total := !total +. (after -. before);
- res
- in
- at_exit
- (fun () ->
- print_endline
- ("!! TOTAL TIME SPENT IN " ^ s ^ ": " ^ string_of_float !total));
- profile
-
let id_of_annterm =
function
| Cic.ARel (id,_,_,_)
| Cic.AFix (id,_,_)
| Cic.ACoFix (id,_,_) -> id
- (** WARNING: COMMENT THIS TO ENABLE PROFILING **)
-let profile _ = let profile f x = f x in profile
+
+let rec rehash_term =
+ let module C = Cic in
+ let recons uri = UriManager.uri_of_string (UriManager.string_of_uri uri) in
+ function
+ | (C.Rel _) as t -> t
+ | C.Var (uri,exp_named_subst) ->
+ let uri' = recons uri in
+ let exp_named_subst' =
+ List.map
+ (function (uri,t) ->(recons uri,rehash_term t))
+ exp_named_subst
+ in
+ C.Var (uri',exp_named_subst')
+ | C.Meta (i,l) ->
+ let l' =
+ List.map
+ (function
+ None -> None
+ | Some t -> Some (rehash_term t)
+ ) l
+ in
+ C.Meta(i,l')
+ | C.Sort (C.Type u) ->
+ CicUniv.assert_univ u;
+ C.Sort (C.Type (CicUniv.recons_univ u))
+ | C.Sort _ as t -> t
+ | C.Implicit _ as t -> t
+ | C.Cast (te,ty) -> C.Cast (rehash_term te, rehash_term ty)
+ | C.Prod (n,s,t) -> C.Prod (n, rehash_term s, rehash_term t)
+ | C.Lambda (n,s,t) -> C.Lambda (n, rehash_term s, rehash_term t)
+ | C.LetIn (n,s,t) -> C.LetIn (n, rehash_term s, rehash_term t)
+ | C.Appl l -> C.Appl (List.map rehash_term l)
+ | C.Const (uri,exp_named_subst) ->
+ let uri' = recons uri in
+ let exp_named_subst' =
+ List.map
+ (function (uri,t) -> (recons uri,rehash_term t)) exp_named_subst
+ in
+ C.Const (uri',exp_named_subst')
+ | C.MutInd (uri,tyno,exp_named_subst) ->
+ let uri' = recons uri in
+ let exp_named_subst' =
+ List.map
+ (function (uri,t) -> (recons uri,rehash_term t)) exp_named_subst
+ in
+ C.MutInd (uri',tyno,exp_named_subst')
+ | C.MutConstruct (uri,tyno,consno,exp_named_subst) ->
+ let uri' = recons uri in
+ let exp_named_subst' =
+ List.map
+ (function (uri,t) -> (recons uri,rehash_term t)) exp_named_subst
+ in
+ C.MutConstruct (uri',tyno,consno,exp_named_subst')
+ | C.MutCase (uri,i,outty,t,pl) ->
+ C.MutCase (recons uri, i, rehash_term outty, rehash_term t,
+ List.map rehash_term pl)
+ | C.Fix (i, fl) ->
+ let liftedfl =
+ List.map
+ (fun (name, i, ty, bo) ->
+ (name, i, rehash_term ty, rehash_term bo))
+ fl
+ in
+ C.Fix (i, liftedfl)
+ | C.CoFix (i, fl) ->
+ let liftedfl =
+ List.map
+ (fun (name, ty, bo) -> (name, rehash_term ty, rehash_term bo))
+ fl
+ in
+ C.CoFix (i, liftedfl)
+
+let rehash_obj =
+ let module C = Cic in
+ let recons uri = UriManager.uri_of_string (UriManager.string_of_uri uri) in
+ function
+ C.Constant (name,bo,ty,params,attrs) ->
+ let bo' =
+ match bo with
+ None -> None
+ | Some bo -> Some (rehash_term bo)
+ in
+ let ty' = rehash_term ty in
+ let params' = List.map recons params in
+ C.Constant (name, bo', ty', params',attrs)
+ | C.CurrentProof (name,conjs,bo,ty,params,attrs) ->
+ let conjs' =
+ List.map
+ (function (i,hyps,ty) ->
+ (i,
+ List.map (function
+ None -> None
+ | Some (name,C.Decl t) ->
+ Some (name,C.Decl (rehash_term t))
+ | Some (name,C.Def (bo,ty)) ->
+ let ty' =
+ match ty with
+ None -> None
+ | Some ty'' -> Some (rehash_term ty'')
+ in
+ Some (name,C.Def (rehash_term bo, ty'))) hyps,
+ rehash_term ty))
+ conjs
+ in
+ let bo' = rehash_term bo in
+ let ty' = rehash_term ty in
+ let params' = List.map recons params in
+ C.CurrentProof (name, conjs', bo', ty', params',attrs)
+ | C.Variable (name,bo,ty,params,attrs) ->
+ let bo' =
+ match bo with
+ None -> None
+ | Some bo -> Some (rehash_term bo)
+ in
+ let ty' = rehash_term ty in
+ let params' = List.map recons params in
+ C.Variable (name, bo', ty', params',attrs)
+ | C.InductiveDefinition (tl,params,paramsno,attrs) ->
+ let params' = List.map recons params in
+ let tl' =
+ List.map (function (name, inductive, ty, constructors) ->
+ name,
+ inductive,
+ rehash_term ty,
+ (List.map
+ (function (name, ty) -> name, rehash_term ty)
+ constructors))
+ tl
+ in
+ C.InductiveDefinition (tl', params', paramsno, attrs)