* http://cs.unibo.it/helm/.
*)
-(******************************************************************************)
-(* *)
-(* PROJECT HELM *)
-(* *)
-(* Claudio Sacerdoti Coen <sacerdot@cs.unibo.it> *)
-(* 24/01/2000 *)
-(* *)
-(* This module implements a trival cache system (an hash-table) for cic *)
-(* objects. Uses the getter (getter.ml) and the parser (cicParser.ml) *)
-(* *)
-(******************************************************************************)
+(*****************************************************************************)
+(* *)
+(* PROJECT HELM *)
+(* *)
+(* Claudio Sacerdoti Coen <sacerdot@cs.unibo.it> *)
+(* 24/01/2000 *)
+(* *)
+(* This module implements a trival cache system (an hash-table) for cic *)
+(* objects. Uses the getter (getter.ml) and the parser (cicParser.ml) *)
+(* *)
+(*****************************************************************************)
+
+
+(* ************************************************************************** *
+ CicEnvironment SETTINGS (trust and clean_tmp)
+ * ************************************************************************** *)
let cleanup_tmp = true;;
+let trust = ref (fun _ -> true);;
+let set_trust f = trust := f
+let trust_obj uri = !trust uri
+
-let trust_obj = function uri -> true;;
-(*let trust_obj = function uri -> false;;*)
+(* ************************************************************************** *
+ TYPES
+ * ************************************************************************** *)
type type_checked_obj =
- CheckedObj of Cic.obj (* cooked obj *)
+ CheckedObj of (Cic.obj * CicUniv.universe_graph) (* cooked obj *)
| UncheckedObj of Cic.obj (* uncooked obj to proof-check *)
;;
-
exception AlreadyCooked of string;;
exception CircularDependency of string;;
exception CouldNotFreeze of string;;
exception CouldNotUnfreeze of string;;
-exception Term_not_found of UriManager.uri;;
+exception Object_not_found of UriManager.uri;;
+
+
+(* ************************************************************************** *
+ HERE STARTS THE CACHE MODULE
+ * ************************************************************************** *)
+
+(* I think this should be the right place to implement mecanisms and
+ * invasriants
+ *)
(* Cache that uses == instead of = for testing equality *)
(* Invariant: an object is always in at most one of the *)
(* following states: unchecked, frozen and cooked. *)
module Cache :
sig
- val find_or_add_unchecked :
- UriManager.uri -> get_object_to_add:(unit -> Cic.obj) -> Cic.obj
- val unchecked_to_frozen : UriManager.uri -> unit
+ val find_or_add_to_unchecked :
+ UriManager.uri ->
+ get_object_to_add:
+ (UriManager.uri -> Cic.obj * CicUniv.universe_graph option) ->
+ Cic.obj * CicUniv.universe_graph
+ val can_be_cooked:
+ UriManager.uri -> bool
+ val unchecked_to_frozen :
+ UriManager.uri -> unit
val frozen_to_cooked :
- uri:UriManager.uri -> unit
- val find_cooked : key:UriManager.uri -> Cic.obj
- val add_cooked : key:UriManager.uri -> Cic.obj -> unit
+ uri:UriManager.uri -> unit
+ val hack_univ:
+ UriManager.uri -> CicUniv.universe_graph -> unit
+ val find_cooked :
+ key:UriManager.uri -> Cic.obj * CicUniv.universe_graph
+ val add_cooked :
+ key:UriManager.uri -> (Cic.obj * CicUniv.universe_graph) -> unit
val remove: UriManager.uri -> unit
-
val dump_to_channel : ?callback:(string -> unit) -> out_channel -> unit
val restore_from_channel : ?callback:(string -> unit) -> in_channel -> unit
val empty : unit -> unit
+ val is_in_frozen: UriManager.uri -> bool
+ val is_in_unchecked: UriManager.uri -> bool
+ val is_in_cooked: UriManager.uri -> bool
+ val list_all_cooked_uris: unit -> UriManager.uri list
end
=
struct
- module CacheOfCookedObjects :
- sig
- val mem : UriManager.uri -> bool
- val find : UriManager.uri -> Cic.obj
- val add : UriManager.uri -> Cic.obj -> unit
- val remove : UriManager.uri -> unit
-
- (** (de)serialization of type checker cache *)
- val dump_to_channel : ?callback:(string -> unit) -> out_channel -> unit
- val restore_from_channel : ?callback:(string -> unit) -> in_channel -> unit
- val empty : unit -> unit
- end
- =
+ (*************************************************************************
+ TASSI: invariant
+ The cacheOfCookedObjects will contain only objects with a valid universe
+ graph. valid means that not None (used if there is no universe file
+ in the universe generation phase).
+ **************************************************************************)
+
+ (* DATA: the data structure that implements the CACHE *)
+ module HashedType =
struct
- module HashedType =
- struct
- type t = UriManager.uri
- let equal = UriManager.eq
- let hash = Hashtbl.hash
- end
- ;;
- module HT = Hashtbl.Make(HashedType);;
- let hashtable = HT.create 1009;;
- let mem uri =
- try
- HT.mem hashtable uri
- with
- Not_found -> false
- ;;
- let find uri = HT.find hashtable uri
- ;;
- let add uri obj =
- HT.add hashtable uri obj
- ;;
- let remove uri =
- if mem uri then
- HT.remove hashtable uri
- else
- raise (Term_not_found uri);
- ;;
+ type t = UriManager.uri
+ let equal = UriManager.eq
+ let hash = Hashtbl.hash
+ end
+ ;;
+
+ module HT = Hashtbl.Make(HashedType);;
+
+ let cacheOfCookedObjects = HT.create 1009;;
+
+ (* DATA: The parking lists
+ * the lists elements are (uri * (obj * universe_graph option))
+ * ( u, ( o, None )) means that the object has no universes file, this
+ * should happen only in the universe generation phase.
+ * FIXME: if the universe generation is integrated in the library
+ * exportation phase, the 'option' MUST be removed.
+ * ( u, ( o, Some g)) means that the object has a universes file,
+ * the usual case.
+ *)
+
+ (* frozen is used to detect circular dependency. *)
+ let frozen_list = ref [];;
+ (* unchecked is used to store objects just fetched, nothing more. *)
+ let unchecked_list = ref [];;
+ (* FIXED: should be ok even if not touched *)
(* used to hash cons uris on restore to grant URI structure unicity *)
- let restore_uris =
- let module C = Cic in
- let recons uri =
- UriManager.uri_of_string (UriManager.string_of_uri uri)
- in
- let rec restore_in_term =
- 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,restore_in_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 (restore_in_term t)
- ) l
- in
- C.Meta(i,l')
- | C.Sort _ as t -> t
- | C.Implicit _ as t -> t
- | C.Cast (te,ty) -> C.Cast (restore_in_term te, restore_in_term ty)
- | C.Prod (n,s,t) -> C.Prod (n, restore_in_term s, restore_in_term t)
- | C.Lambda (n,s,t) -> C.Lambda (n, restore_in_term s, restore_in_term t)
- | C.LetIn (n,s,t) -> C.LetIn (n, restore_in_term s, restore_in_term t)
- | C.Appl l -> C.Appl (List.map restore_in_term l)
- | C.Const (uri,exp_named_subst) ->
- let uri' = recons uri in
- let exp_named_subst' =
- List.map
- (function (uri,t) -> (recons uri,restore_in_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,restore_in_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,restore_in_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, restore_in_term outty, restore_in_term t,
- List.map restore_in_term pl)
- | C.Fix (i, fl) ->
- let len = List.length fl in
- let liftedfl =
- List.map
- (fun (name, i, ty, bo) ->
- (name, i, restore_in_term ty, restore_in_term bo))
- fl
- in
- C.Fix (i, liftedfl)
- | C.CoFix (i, fl) ->
- let len = List.length fl in
- let liftedfl =
- List.map
- (fun (name, ty, bo) -> (name, restore_in_term ty, restore_in_term bo))
- fl
- in
- C.CoFix (i, liftedfl)
- in
- function
- C.Constant (name,bo,ty,params) ->
- let bo' =
- match bo with
- None -> None
- | Some bo -> Some (restore_in_term bo)
+ let restore_uris =
+ let module C = Cic in
+ let recons uri =
+ UriManager.uri_of_string (UriManager.string_of_uri uri)
+ in
+ let rec restore_in_term =
+ 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,restore_in_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 (restore_in_term t)
+ ) l
+ in
+ C.Meta(i,l')
+ | C.Sort _ as t -> t
+ | C.Implicit _ as t -> t
+ | C.Cast (te,ty) -> C.Cast (restore_in_term te, restore_in_term ty)
+ | C.Prod (n,s,t) -> C.Prod (n, restore_in_term s, restore_in_term t)
+ | C.Lambda (n,s,t) -> C.Lambda (n, restore_in_term s, restore_in_term t)
+ | C.LetIn (n,s,t) -> C.LetIn (n, restore_in_term s, restore_in_term t)
+ | C.Appl l -> C.Appl (List.map restore_in_term l)
+ | C.Const (uri,exp_named_subst) ->
+ let uri' = recons uri in
+ let exp_named_subst' =
+ List.map
+ (function (uri,t) -> (recons uri,restore_in_term t)) exp_named_subst
in
- let ty' = restore_in_term ty in
- let params' = List.map recons params in
- C.Constant (name, bo', ty', params')
- | C.CurrentProof (name,conjs,bo,ty,params) ->
- let conjs' =
- List.map
- (function (i,hyps,ty) ->
- (i,
- List.map (function
- None -> None
- | Some (name,C.Decl t) ->
- Some (name,C.Decl (restore_in_term t))
- | Some (name,C.Def (bo,ty)) ->
- let ty' =
- match ty with
- None -> None
- | Some ty'' -> Some (restore_in_term ty'')
- in
- Some (name,C.Def (restore_in_term bo, ty'))) hyps,
- restore_in_term ty))
- conjs
+ 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,restore_in_term t)) exp_named_subst
in
- let bo' = restore_in_term bo in
- let ty' = restore_in_term ty in
- let params' = List.map recons params in
- C.CurrentProof (name, conjs', bo', ty', params')
- | C.Variable (name,bo,ty,params) ->
- let bo' =
- match bo with
- None -> None
- | Some bo -> Some (restore_in_term bo)
+ 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,restore_in_term t)) exp_named_subst
in
- let ty' = restore_in_term ty in
- let params' = List.map recons params in
- C.Variable (name, bo', ty', params')
- | C.InductiveDefinition (tl,params,paramsno) ->
- let params' = List.map recons params in
- let tl' =
- List.map (function (name, inductive, ty, constructors) ->
- name,
- inductive,
- restore_in_term ty,
- (List.map
- (function (name, ty) -> name, restore_in_term ty)
- constructors))
- tl
+ C.MutConstruct (uri',tyno,consno,exp_named_subst')
+ | C.MutCase (uri,i,outty,t,pl) ->
+ C.MutCase (recons uri, i, restore_in_term outty, restore_in_term t,
+ List.map restore_in_term pl)
+ | C.Fix (i, fl) ->
+ let len = List.length fl in
+ let liftedfl =
+ List.map
+ (fun (name, i, ty, bo) ->
+ (name, i, restore_in_term ty, restore_in_term bo))
+ fl
in
- C.InductiveDefinition (tl', params', paramsno)
-
- let dump_to_channel ?(callback = ignore) oc =
- HT.iter (fun uri _ -> callback (UriManager.string_of_uri uri)) hashtable;
- Marshal.to_channel oc hashtable [] ;;
- let empty () = HT.clear hashtable ;;
- let restore_from_channel ?(callback = ignore) ic =
- let restored = Marshal.from_channel ic in
- empty ();
- HT.iter
- (fun k v ->
- callback (UriManager.string_of_uri k);
- HT.add hashtable
- (UriManager.uri_of_string (UriManager.string_of_uri k))
- (restore_uris v))
- restored
- ;;
+ C.Fix (i, liftedfl)
+ | C.CoFix (i, fl) ->
+ let len = List.length fl in
+ let liftedfl =
+ List.map
+ (fun (name, ty, bo) -> (name, restore_in_term ty, restore_in_term bo))
+ fl
+ in
+ C.CoFix (i, liftedfl)
+ in
+ function
+ C.Constant (name,bo,ty,params,attrs) ->
+ let bo' =
+ match bo with
+ None -> None
+ | Some bo -> Some (restore_in_term bo)
+ in
+ let ty' = restore_in_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 (restore_in_term t))
+ | Some (name,C.Def (bo,ty)) ->
+ let ty' =
+ match ty with
+ None -> None
+ | Some ty'' -> Some (restore_in_term ty'')
+ in
+ Some (name,C.Def (restore_in_term bo, ty'))) hyps,
+ restore_in_term ty))
+ conjs
+ in
+ let bo' = restore_in_term bo in
+ let ty' = restore_in_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 (restore_in_term bo)
+ in
+ let ty' = restore_in_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,
+ restore_in_term ty,
+ (List.map
+ (function (name, ty) -> name, restore_in_term ty)
+ constructors))
+ tl
+ in
+ C.InductiveDefinition (tl', params', paramsno, attrs)
+ ;;
- end
- ;;
- let frozen_list = ref [];;
- let unchecked_list = ref [];;
+ let empty () =
+ HT.clear cacheOfCookedObjects;
+ unchecked_list := [] ;
+ frozen_list := []
+ ;;
+
+ (* FIX: universe stuff?? *)
+ let dump_to_channel ?(callback = ignore) oc =
+ HT.iter (fun uri _ -> callback (UriManager.string_of_uri uri))
+ cacheOfCookedObjects;
+ Marshal.to_channel oc cacheOfCookedObjects []
+ ;;
+
+ (* FIX: universes stuff?? *)
+ let restore_from_channel ?(callback = ignore) ic =
+ let restored = Marshal.from_channel ic in
+ (* FIXME: should this empty clean the frozen and unchecked?
+ * if not, the only-one-empty-end-not-3 patch is wrong
+ *)
+ empty ();
+ HT.iter
+ (fun k (v,u) ->
+ callback (UriManager.string_of_uri k);
+ HT.add cacheOfCookedObjects
+ (UriManager.uri_of_string (UriManager.string_of_uri k))
+ (***********************************************
+ TSSI: FIXME add channel stuff for universes
+ ************************************************)
+ (restore_uris v,u))
+ restored
+ ;;
- let find_or_add_unchecked uri ~get_object_to_add =
+
+ let is_in_frozen uri =
+ List.mem_assoc uri !frozen_list
+ ;;
+
+ let is_in_unchecked uri =
+ List.mem_assoc uri !unchecked_list
+ ;;
+
+ let is_in_cooked uri =
+ HT.mem cacheOfCookedObjects uri
+ ;;
+
+
+ (*******************************************************************
+ TASSI: invariant
+ we need, in the universe generation phase, to traverse objects
+ that are not yet committed, so we search them in the frozen list.
+ Only uncommitted objects without a universe file (see the assertion)
+ can be searched with method
+ *******************************************************************)
+
+ let find_or_add_to_unchecked uri ~get_object_to_add =
+ try
+ let o,g = List.assq uri !unchecked_list in
+ match g with
+ (* FIXME: we accept both cases, as at the end of this function
+ * maybe the None universe outside the cache module should be
+ * avoided elsewhere.
+ *
+ * another thing that should be removed if univ generation phase
+ * and lib exportation are unified.
+ *)
+ None -> o,CicUniv.empty_ugraph
+ | Some g' -> o,g'
+ with
+ Not_found ->
+ if List.mem_assq uri !frozen_list then
+ (* CIRCULAR DEPENDENCY DETECTED, print the error and raise *)
+ begin
+ print_endline "\nCircularDependency!\nfrozen list: \n";
+ List.iter (
+ fun (u,(_,o)) ->
+ let su = UriManager.string_of_uri u in
+ let univ = if o = None then "NO_UNIV" else "" in
+ print_endline (su^" "^univ))
+ !frozen_list;
+ raise (CircularDependency (UriManager.string_of_uri uri))
+ end
+ else
+ if HT.mem cacheOfCookedObjects uri then
+ (* DOUBLE COOK DETECTED, raise the exception *)
+ raise (AlreadyCooked (UriManager.string_of_uri uri))
+ else
+ (* OK, it is not already frozen nor cooked *)
+ let obj,ugraph = get_object_to_add uri in
+ let ugraph_real =
+ match ugraph with
+ (* FIXME: not sure it is OK*)
+ None -> CicUniv.empty_ugraph
+ | Some g -> g
+ in
+ unchecked_list := (uri,(obj,ugraph))::!unchecked_list ;
+ obj,ugraph_real
+ ;;
+
+ let unchecked_to_frozen uri =
+ try
+ let obj,ugraph = List.assq uri !unchecked_list in
+ unchecked_list := List.remove_assq uri !unchecked_list ;
+ frozen_list := (uri,(obj,ugraph))::!frozen_list
+ with
+ Not_found -> raise (CouldNotFreeze (UriManager.string_of_uri uri))
+ ;;
+
+
+ (************************************************************
+ TASSI: invariant
+ only object with a valid universe graph can be committed
+
+ this should disappear if the universe generation phase and the
+ library exportation are unified.
+ *************************************************************)
+ let frozen_to_cooked ~uri =
try
- List.assq uri !unchecked_list
+ let obj,ugraph = List.assq uri !frozen_list in
+ match ugraph with
+ None ->
+ assert false (* only NON dummy universes can be committed *)
+ | Some g ->
+ frozen_list := List.remove_assq uri !frozen_list ;
+ HT.add cacheOfCookedObjects uri (obj,g)
with
- Not_found ->
- if List.mem_assq uri !frozen_list then
- raise (CircularDependency (UriManager.string_of_uri uri))
- else
- if CacheOfCookedObjects.mem uri then
- raise (AlreadyCooked (UriManager.string_of_uri uri))
- else
- (* OK, it is not already frozen nor cooked *)
- let obj = get_object_to_add () in
- unchecked_list := (uri,obj)::!unchecked_list ;
- obj
+ Not_found -> raise (CouldNotUnfreeze (UriManager.string_of_uri uri))
;;
- let unchecked_to_frozen uri =
- try
- let obj = List.assq uri !unchecked_list in
- unchecked_list := List.remove_assq uri !unchecked_list ;
- frozen_list := (uri,obj)::!frozen_list
- with
- Not_found -> raise (CouldNotFreeze (UriManager.string_of_uri uri))
+
+ let can_be_cooked uri =
+ try
+ let obj,ugraph = List.assq uri !frozen_list in
+ (* FIXME: another thing to remove if univ generation phase and lib
+ * exportation are unified.
+ *)
+ match ugraph with
+ None -> false
+ | Some _ -> true
+ with
+ Not_found -> false
;;
- let frozen_to_cooked ~uri =
- try
- let obj = List.assq uri !frozen_list in
- frozen_list := List.remove_assq uri !frozen_list ;
- CacheOfCookedObjects.add uri obj
- with
- Not_found -> raise (CouldNotUnfreeze (UriManager.string_of_uri uri))
+
+ (* this function injects a real universe graph in a (uri, (obj, None))
+ * element of the frozen list.
+ *
+ * FIXME: another thing to remove if univ generation phase and lib
+ * exportation are unified.
+ *)
+ let hack_univ uri real_ugraph =
+ try
+ let o,g = List.assq uri !frozen_list in
+ match g with
+ None ->
+ frozen_list := List.remove_assoc uri !frozen_list;
+ frozen_list := (uri,(o,Some real_ugraph))::!frozen_list;
+ | Some g ->
+ prerr_endline (
+ "You are probably hacking an object already hacked or an"^
+ " object that has the universe file but is not"^
+ " yet committed.");
+ assert false
+ with
+ Not_found ->
+ prerr_endline (
+ "You are hacking an object that is not in the"^
+ " frozen_list, this means you are probably generating an"^
+ " universe file for an object that already"^
+ " as an universe file");
+ assert false
;;
- let find_cooked ~key:uri = CacheOfCookedObjects.find uri;;
- let add_cooked ~key:uri obj = CacheOfCookedObjects.add uri obj;;
+
+ let find_cooked ~key:uri = HT.find cacheOfCookedObjects uri ;;
+
+ let add_cooked ~key:uri (obj,ugraph) =
+ HT.add cacheOfCookedObjects uri (obj,ugraph)
+ ;;
+
+ (* invariant
+ *
+ * an object can be romeved from the cache only if we are not typechecking
+ * something. this means check and frozen must be empty.
+ *)
let remove uri =
- if (!unchecked_list <> []) || (!frozen_list <> []) then
+ if !frozen_list <> [] then
failwith "CicEnvironment.remove while type checking"
else
- CacheOfCookedObjects.remove uri
+ HT.remove cacheOfCookedObjects uri
+ ;;
+
+ let list_all_cooked_uris () =
+ HT.fold (fun u _ l -> u::l) cacheOfCookedObjects []
;;
- let dump_to_channel = CacheOfCookedObjects.dump_to_channel;;
- let restore_from_channel = CacheOfCookedObjects.restore_from_channel;;
- let empty = CacheOfCookedObjects.empty;;
+
end
;;
+(* ************************************************************************
+ HERE ENDS THE CACHE MODULE
+ * ************************************************************************ *)
+
+(* exported cache functions *)
let dump_to_channel = Cache.dump_to_channel;;
let restore_from_channel = Cache.restore_from_channel;;
let empty = Cache.empty;;
-let find_or_add_unchecked_to_cache uri =
- Cache.find_or_add_unchecked uri
- ~get_object_to_add:
- (function () ->
- let filename = Http_getter.getxml' uri in
- let bodyfilename =
- match UriManager.bodyuri_of_uri uri with
- None -> None
- | Some bodyuri ->
- try
- ignore (Http_getter.resolve' bodyuri) ;
- (* The body exists ==> it is not an axiom *)
- Some (Http_getter.getxml' bodyuri)
- with
- Http_getter_types.Key_not_found _ ->
- (* The body does not exist ==> we consider it an axiom *)
- None
+let get_object_to_add uri =
+ let filename = Http_getter.getxml' uri in
+ let bodyfilename =
+ match UriManager.bodyuri_of_uri uri with
+ None -> None
+ | Some bodyuri ->
+ try
+ ignore (Http_getter.resolve' bodyuri) ;
+ (* The body exists ==> it is not an axiom *)
+ Some (Http_getter.getxml' bodyuri)
+ with
+ Http_getter_types.Key_not_found _ ->
+ (* The body does not exist ==> we consider it an axiom *)
+ None
+ in
+ let cleanup () =
+ Unix.unlink filename ;
+ (*
+ begin
+ match filename_univ with
+ Some f -> Unix.unlink f
+ | None -> ()
+ end;
+ *)
+ begin
+ match bodyfilename with
+ Some f -> Unix.unlink f
+ | None -> ()
+ end
+ in
+ (* this brakes something :
+ * let _ = CicUniv.restart_numbering () in
+ *)
+ let obj =
+ try
+ CicParser.obj_of_xml filename bodyfilename
+ with exn ->
+ cleanup ();
+ (match exn with
+ | CicParser.Getter_failure ("key_not_found", uri) ->
+ raise (Object_not_found (UriManager.uri_of_string uri))
+ | _ -> raise exn)
+ in
+ let ugraph,filename_univ =
+ (* FIXME: decomment this when the universes will be part of the library
+ try
+ let filename_univ =
+ Http_getter.getxml' (
+ UriManager.uri_of_string (
+ (UriManager.string_of_uri uri) ^ ".univ"))
in
- let cleanup () =
- if cleanup_tmp then
- begin
- if Sys.file_exists filename then Unix.unlink filename ;
- match bodyfilename with
- Some f -> if Sys.file_exists f then Unix.unlink f
- | None -> ()
- end ;
- in
- CicUniv.directly_to_env_begin ();
- let obj =
- try
- CicParser.obj_of_xml filename bodyfilename
- with exn ->
- cleanup ();
- raise exn
- in
- CicUniv.directly_to_env_end ();
- cleanup ();
- obj
- )
+ (Some (CicUniv.ugraph_of_xml filename_univ),Some filename_univ)
+ with Failure s ->
+
+ prerr_endline (
+ "WE HAVE NO UNIVERSE FILE FOR " ^ (UriManager.string_of_uri uri));
+ Inix.unlink
+ None,None
+ *)
+ (**********************************************
+ TASSI: should fail when universes will be ON
+ ***********************************************)
+ (Some CicUniv.empty_ugraph,None)
+ in
+ cleanup();
+ obj,ugraph
;;
+
+(* this is the function to fetch the object in the unchecked list and
+ * nothing more (except returning it)
+ *)
+let find_or_add_to_unchecked uri =
+ Cache.find_or_add_to_unchecked uri ~get_object_to_add
-(* set_type_checking_info uri *)
-(* must be called once the type-checking of uri is finished *)
-(* The object whose uri is uri is unfreezed *)
-let set_type_checking_info uri =
- Cache.frozen_to_cooked uri
+(* set_type_checking_info uri *)
+(* must be called once the type-checking of uri is finished *)
+(* The object whose uri is uri is unfreezed *)
+(* *)
+(* the replacement ugraph must be the one returned by the *)
+(* typechecker, restricted with the CicUnivUtils.clean_and_fill *)
+let set_type_checking_info ?(replace_ugraph=None) uri =
+(*
+ if not (Cache.can_be_cooked uri) && replace_ugraph <> None then begin
+ prerr_endline (
+ "?replace_ugraph must be None if you are not committing an "^
+ "object that has a universe graph associated "^
+ "(can happen only in the fase of universes graphs generation).");
+ assert false
+ else
+*)
+ match Cache.can_be_cooked uri, replace_ugraph with
+ | true, Some _
+ | false, None ->
+ prerr_endline (
+ "?replace_ugraph must be (Some ugraph) when committing an object that "^
+ "has no associated universe graph. If this is in make_univ phase you "^
+ "should drop this exception and let univ_make commit thi object with "^
+ "proper arguments");
+ assert false
+ | _ ->
+ (match replace_ugraph with
+ | None -> ()
+ | Some g -> Cache.hack_univ uri g);
+ Cache.frozen_to_cooked uri
;;
-(* is_type_checked uri *)
-(* CSC: commento falso ed obsoleto *)
-(* returns a CheckedObj if the term has been type-checked *)
-(* otherwise it freezes the term for type-checking and returns
- it *)
-(* set_type_checking_info must be called to unfreeze the term *)
-let is_type_checked ?(trust=true) uri =
- try
- CheckedObj (Cache.find_cooked uri)
- with
- Not_found ->
- let obj = find_or_add_unchecked_to_cache uri in
- Cache.unchecked_to_frozen uri ;
- if trust && trust_obj uri then
- begin
- CicLogger.log (`Trusting uri) ;
- set_type_checking_info uri ;
- CheckedObj (Cache.find_cooked uri)
- end
- else
- UncheckedObj obj
+(* fetch, unfreeze and commit an uri to the cacheOfCookedObjects and
+ * return the object,ugraph
+ *)
+let add_trusted_uri_to_cache uri =
+ let o,u = find_or_add_to_unchecked uri in
+ Cache.unchecked_to_frozen uri;
+ set_type_checking_info uri;
+ try
+ Cache.find_cooked uri
+ with Not_found -> assert false
;;
-(* get_cooked_obj ~trust uri *)
-(* returns the object if it is already type-checked or if it can be *)
-(* trusted (if [trust] = true and the trusting function accepts it) *)
-(* Otherwise it raises Not_found *)
-let get_cooked_obj ?(trust=true) uri =
- try
- Cache.find_cooked uri
- with Not_found ->
- if trust && trust_obj uri then
- begin
- match is_type_checked uri with
- CheckedObj obj -> obj
- | _ -> assert false
- end
- else
- begin
- prerr_endline ("@@@ OOOOOOOPS: get_cooked_obj(" ^ UriManager.string_of_uri uri ^ ") raises Not_found since the object is not type-checked nor trusted.") ;
- raise Not_found
- end
+(* get the uri, if we trust it will be added to the cacheOfCookedObjects *)
+let get_cooked_obj ?(trust=true) base_univ uri =
+ try
+ (* the object should be in the cacheOfCookedObjects *)
+ let o,u = Cache.find_cooked uri in
+ o,(CicUniv.merge_ugraphs base_univ u)
+ with Not_found ->
+ (* this should be an error case, but if we trust the uri... *)
+ if trust && trust_obj uri then
+ (* trusting means that we will fetch cook it on the fly *)
+ let o,u = add_trusted_uri_to_cache uri in
+ o,(CicUniv.merge_ugraphs base_univ u)
+ else
+ (* we don't trust the uri, so we fail *)
+ begin
+ prerr_endline ("CACHE MISS: " ^ (UriManager.string_of_uri uri));
+ raise Not_found
+ end
+
+(* This has not the old semantic :( but is what the name suggests
+ *
+ * let is_type_checked ?(trust=true) uri =
+ * try
+ * let _ = Cache.find_cooked uri in
+ * true
+ * with
+ * Not_found ->
+ * trust && trust_obj uri
+ * ;;
+ *
+ * as the get_cooked_obj but returns a type_checked_obj
+ *
+ *)
+let is_type_checked ?(trust=true) base_univ uri =
+ try
+ let o,u = Cache.find_cooked uri in
+ CheckedObj (o,(CicUniv.merge_ugraphs base_univ u))
+ with Not_found ->
+ (* this should return UncheckedObj *)
+ if trust && trust_obj uri then
+ (* trusting means that we will fetch cook it on the fly *)
+ let o,u = add_trusted_uri_to_cache uri in
+ CheckedObj ( o, CicUniv.merge_ugraphs u base_univ )
+ else
+ let o,u = find_or_add_to_unchecked uri in
+ Cache.unchecked_to_frozen uri;
+ UncheckedObj o
;;
-(* get_obj uri *)
-(* returns the cic object whose uri is uri. If the term is not just in cache, *)
-(* then it is parsed via CicParser.term_of_xml from the file whose name is *)
-(* the result of Getter.getxml uri *)
-let get_obj uri =
- try
- get_cooked_obj uri
- with
- Not_found ->
- find_or_add_unchecked_to_cache uri
+(* as the get cooked, but if not present the object is only fetched,
+ * not unfreezed and committed
+ *)
+let get_obj base_univ uri =
+ try
+ (* the object should be in the cacheOfCookedObjects *)
+ let o,u = Cache.find_cooked uri in
+ o,(CicUniv.merge_ugraphs base_univ u)
+ with Not_found ->
+ (* this should be an error case, but if we trust the uri... *)
+ let o,u = find_or_add_to_unchecked uri in
+ o,(CicUniv.merge_ugraphs base_univ u)
;;
exception OnlyPutOfInductiveDefinitionsIsAllowed
-let put_inductive_definition uri obj =
+let put_inductive_definition uri (obj,ugraph) =
match obj with
- Cic.InductiveDefinition _ -> Cache.add_cooked uri obj
+ Cic.InductiveDefinition _ -> Cache.add_cooked uri (obj,ugraph)
| _ -> raise OnlyPutOfInductiveDefinitionsIsAllowed
;;
-let in_cache uri =
- try
- ignore (Cache.find_cooked uri);true
- with Not_found -> false
-;;
+let in_cache uri =
+ Cache.is_in_cooked uri || Cache.is_in_frozen uri || Cache.is_in_unchecked uri
-let add_type_checked_term uri obj =
+let add_type_checked_term uri (obj,ugraph) =
match obj with
- Cic.Constant (s,(Some bo),ty,ul) ->
- Cache.add_cooked ~key:uri obj
- | _ -> assert false
- Cache.add_cooked
+ Cic.Constant (s,(Some bo),ty,ul,_) ->
+ Cache.add_cooked ~key:uri (obj,ugraph)
+ | _ ->
+ assert false
;;
-let remove_term = Cache.remove
+let in_library uri =
+ in_cache uri ||
+ (try
+ ignore (Http_getter.resolve' uri);
+ true
+ with Http_getter_types.Key_not_found _ -> false)
+
+let remove_obj = Cache.remove
+
+let list_uri () =
+ Cache.list_all_cooked_uris ()
+;;
+let list_obj () =
+ try
+ List.map (fun u ->
+ let o,ug = get_obj CicUniv.empty_ugraph u in
+ (u,o,ug))
+ (list_uri ())
+ with
+ Not_found ->
+ prerr_endline "Who has removed the uri in the meanwhile?";
+ raise Not_found
+;;