(are_set_eq v1.one_s_gt v2.one_s_gt ) &&
(are_set_eq v1.one_s_eq v2.one_s_eq )
-
-(* ocaml 3.07 doesn't have MAP.equal, 3.08 has it! *)
-(*
- let are_ugraph_eq308 g h =
- MAL.equal are_entry_eq g h
-*)
-let are_ugraph_eq307 g h =
- try
- MAL.fold (
- fun k v b ->
- if not b then
- raise (Failure "Different")
- else
- try
- let k_h = MAL.find k h in
- are_entry_eq v k_h
- with Not_found -> true
- ) g true
- with
- Failure "Different" -> false
-
-let are_ugraph_eq = are_ugraph_eq307
+let are_ugraph_eq = MAL.equal are_entry_eq
(*****************************************************************************)
(** Pretty printings **)
let string_of_universe (i,u) =
match u with
Some u ->
- ((string_of_int i) ^ " " ^ (UriManager.string_of_uri u))
- | None -> (string_of_int i)
+ "(" ^ ((string_of_int i) ^ "," ^ (UriManager.string_of_uri u) ^ ")")
+ | None -> "(" ^ (string_of_int i) ^ ",None)"
let string_of_universe_set l =
SOF.fold (fun x s -> s ^ (string_of_universe x) ^ " ") l ""
"i_gegt: " ^ (string_of_universe_set n.in_gegt_of) ^ "}\n"
let string_of_arc (a,u,v) =
- "(" ^ (string_of_universe u) ^ " " ^ a ^ " " ^ (string_of_universe v) ^ ")"
+ (string_of_universe u) ^ " " ^ a ^ " " ^ (string_of_universe v)
let string_of_mal m =
let rc = ref "" in
MAL.iter (fun k v ->
rc := !rc ^ sprintf "%s --> %s" (string_of_universe k)
- (string_of_node v)) m;
+ (string_of_node v)) m;
!rc
let string_of_bag b =
let reset_spent_time () = time_spent := 0.0;;
let get_spent_time () = !time_spent ;;
let begin_spending () =
- assert (!partial = 0.0);
+ (*assert (!partial = 0.0);*)
partial := Unix.gettimeofday ()
;;
and print_rec_status u ru =
print_endline ("Aggiusto " ^ (string_of_universe u) ^
- "e ottengo questa chiusura\n " ^ (string_of_node ru))
+ "e ottengo questa chiusura\n " ^ (string_of_node ru))
and adjust_fast u m =
let ru = repr u m in
m
else
begin
- let ru' = {
- eq_closure = eq_c;
- ge_closure = ge_c;
- gt_closure = gt_c;
- in_gegt_of = ru.in_gegt_of;
- one_s_eq = ru.one_s_eq;
- one_s_ge = ru.one_s_ge;
- one_s_gt = ru.one_s_gt}
- in
- let m = MAL.add u ru' m in
- let m =
+ let ru' = {
+ eq_closure = eq_c;
+ ge_closure = ge_c;
+ gt_closure = gt_c;
+ in_gegt_of = ru.in_gegt_of;
+ one_s_eq = ru.one_s_eq;
+ one_s_ge = ru.one_s_ge;
+ one_s_gt = ru.one_s_gt}
+ in
+ let m = MAL.add u ru' m in
+ let m =
SOF.fold (fun x m -> adjust_fast x m)
(SOF.union ru'.eq_closure ru'.in_gegt_of) m
(* TESI:
ru'.in_gegt_of m
*)
in
- m (*adjust_fast u m*)
+ m (*adjust_fast u m*)
end
-
+
and add_gt_arc_fast u v m =
let ru = repr u m in
let ru' = {ru with one_s_gt = SOF.add v ru.one_s_gt} in
let j = ru.one_s_eq in
let _Uj = merge_closures (fun x -> x.eq_closure) j m in
let one_step_eq = ru.one_s_eq in
- (SOF.union one_step_eq _Uj)
+ (SOF.union one_step_eq _Uj)
in
let ge_c =
let j = SOF.union ru.one_s_ge (SOF.union ru.one_s_gt ru.one_s_eq) in
let error arc node1 closure_type node2 closure =
let s = "\n ===== Universe Inconsistency detected =====\n\n" ^
- "\tUnable to add "^ (string_of_arc arc) ^ " cause " ^
- (string_of_universe node1) ^ " is in the " ^
- closure_type ^ " closure {" ^
- (string_of_universe_set closure) ^ "} of " ^
- (string_of_universe node2) ^ "\n\n" ^
+ " Unable to add\n" ^
+ "\t" ^ (string_of_arc arc) ^ "\n" ^
+ " cause\n" ^
+ "\t" ^ (string_of_universe node1) ^ "\n" ^
+ " is in the " ^ closure_type ^ " closure\n" ^
+ "\t{" ^ (string_of_universe_set closure) ^ "}\n" ^
+ " of\n" ^
+ "\t" ^ (string_of_universe node2) ^ "\n\n" ^
" ===== Universe Inconsistency detected =====\n" in
prerr_endline s;
raise (UniverseInconsistency s)
let fill_empty_nodes_with_uri g uri =
let fill_empty_universe u =
match u with
- (i,None) -> (i,Some uri)
+ (i,None) -> (i,Some uri)
| (i,Some _) as u -> u
in
let fill_empty_set s =
let empty_ugraph = empty_bag
-let current_index = ref (-1)
+let current_index_anon = ref (-1)
+let current_index_named = ref (-1)
-let restart_numbering () = current_index := (-1)
+let restart_numbering () = current_index_named := (-1)
-let fresh () =
- current_index := !current_index + 1;
- (!current_index,None)
+let fresh ?uri () =
+ let i =
+ match uri with
+ | None ->
+ current_index_anon := !current_index_anon + 1;
+ !current_index_anon
+ | Some _ ->
+ current_index_named := !current_index_named + 1;
+ !current_index_named
+ in
+ (i,uri)
let print_ugraph g =
prerr_endline (string_of_bag g)
(* begin
if SOF.mem u rv.eq_closure then
error ("GT",u,v) u "EQ" v rv.eq_closure
- else*)
- add_gt fast u v b
-(* end
+ else*)
+ add_gt fast u v b
+(* end
end*)
(*****************************************************************************)
else
let m1 = u in
let m2 = v in
- MAL.fold (
- fun k v x ->
- (SOF.fold (
- fun u x ->
- let m = add_gt k u x in m) v.one_s_gt
+ MAL.fold (
+ fun k v x ->
+ (SOF.fold (
+ fun u x ->
+ let m = add_gt k u x in m) v.one_s_gt
(SOF.fold (
- fun u x ->
- let m = add_ge k u x in m) v.one_s_ge
- (SOF.fold (
- fun u x ->
- let m = add_eq k u x in m) v.one_s_eq x)))
- ) m1 m2
+ fun u x ->
+ let m = add_ge k u x in m) v.one_s_ge
+ (SOF.fold (
+ fun u x ->
+ let m = add_eq k u x in m) v.one_s_eq x)))
+ ) m1 m2
in
merge_brutal u v
let l =
List.map (
function
- (i,Some u) ->
- Xml.xml_empty "node" [
- None,"id",(string_of_int i) ;
- None,"uri",(UriManager.string_of_uri u)]
- | (_,None) ->
- raise (Failure "we can serialize only universes with uri")
+ (i,Some u) ->
+ Xml.xml_empty "node" [
+ None,"id",(string_of_int i) ;
+ None,"uri",(UriManager.string_of_uri u)]
+ | (_,None) ->
+ raise (Failure "we can serialize only universes with uri")
) (SOF.elements s)
in
List.fold_left (fun s x -> [< s ; x >] ) [<>] l
let (i,u') = u in
let u'' =
match u' with
- Some x -> x
+ Some x -> x
| None ->
- raise (Failure "we can serialize only universes (entry) with uri")
+ raise (Failure "we can serialize only universes (entry) with uri")
in
let ent = Xml.xml_nempty "entry" [
None,"id",(string_of_int i) ;
let clean_ugraph g l =
clean_ugraph g (fun u -> List.mem u l)
-open Pxp_types ;;
-
let assigner_of =
function
"ge_closure" -> (fun e u->{e with ge_closure=SOF.add u e.ge_closure})
;;
let cb_factory m =
+ let module XPP = XmlPushParser in
let current_node = ref (0,None) in
let current_entry = ref empty_entry in
let current_assign = ref (assigner_of "in_ge_of") in
- function
- | E_error exn -> raise (Failure (Pxp_types.string_of_exn exn))
- | E_start_tag ("entry",attlist,_,_) ->
- let id = List.assoc "id" attlist in
- let uri = List.assoc "uri" attlist in
- current_node := (int_of_string id,Some (UriManager.uri_of_string uri))
- | E_start_tag ("node",attlist,_,_) ->
- let id = int_of_string (List.assoc "id" attlist) in
- let uri = List.assoc "uri" attlist in
- current_entry := !current_assign !current_entry
- (id,Some (UriManager.uri_of_string uri))
- | E_start_tag (s,_,_,_) ->
- current_assign := assigner_of s
- | E_end_tag ("entry",_) ->
- m := MAL.add !current_node !current_entry !m;
- current_entry := empty_entry
+ { XPP.default_callbacks with
+ XPP.end_element = Some( fun name ->
+ match name with
+ | "entry" ->
+ m := MAL.add !current_node !current_entry !m;
+ current_entry := empty_entry
| _ -> ()
+ );
+ XPP.start_element = Some( fun name attlist ->
+ match name with
+ | "entry" ->
+ let id = List.assoc "id" attlist in
+ let uri = List.assoc "uri" attlist in
+ current_node := (int_of_string id,Some (UriManager.uri_of_string uri))
+ | "node" ->
+ let id = int_of_string (List.assoc "id" attlist) in
+ let uri = List.assoc "uri" attlist in
+ current_entry := !current_assign !current_entry
+ (id,Some (UriManager.uri_of_string uri))
+ | s -> current_assign := assigner_of s
+ )
+ }
;;
(* alternative implementation *)
;;
let cb_factory' m =
+ let module XPP = XmlPushParser in
let current_node = ref (0,None) in
let current_entry = Array.create 7 SOF.empty in
let current_assign = ref 0 in
- function
- | E_error exn -> raise (Failure (Pxp_types.string_of_exn exn))
- | E_start_tag ("entry",attlist,_,_) ->
- let id = List.assoc "id" attlist in
- let uri = List.assoc "uri" attlist in
- current_node := (int_of_string id,Some (UriManager.uri_of_string uri))
- | E_start_tag ("node",attlist,_,_) ->
- let id = int_of_string (List.assoc "id" attlist) in
- let uri = List.assoc "uri" attlist in
- current_entry.(!current_assign) <-
- SOF.add (id,Some (UriManager.uri_of_string uri))
- current_entry.(!current_assign)
- | E_start_tag (s,_,_,_) ->
- current_assign := assigner_of' s
- | E_end_tag ("entry",_) ->
- m := MAL.add !current_node (entry_of_array current_entry) !m;
- Array.fill current_entry 0 7 SOF.empty
+ { XPP.default_callbacks with
+ XPP.start_element = Some( fun name attlist ->
+ match name with
+ | "entry" ->
+ let id = List.assoc "id" attlist in
+ let uri = List.assoc "uri" attlist in
+ current_node := (int_of_string id,Some (UriManager.uri_of_string uri))
+ | "node" ->
+ let id = int_of_string (List.assoc "id" attlist) in
+ let uri = List.assoc "uri" attlist in
+ current_entry.(!current_assign) <-
+ SOF.add (id,Some (UriManager.uri_of_string uri))
+ current_entry.(!current_assign)
+ | s -> current_assign := assigner_of' s
+ );
+ XPP.end_element = Some( fun name ->
+ match name with
+ | "entry" ->
+ m := MAL.add !current_node (entry_of_array current_entry) !m;
+ Array.fill current_entry 0 7 SOF.empty
| _ -> ()
+ );
+ }
;;
let ugraph_of_xml filename =
- let module PX = Pxp_ev_parser in
- let module NE = Netconversion in
- let config = default_config in
- let entry = `Entry_document [] in
- let encoding = `Enc_iso88591 in
- let source = from_file ~system_encoding:encoding filename in
- let entity_manager =
- PX.create_entity_manager ~is_document:true config source in
+ let module XPP = XmlPushParser in
let result = ref MAL.empty in
let cb = cb_factory result in
(*let cb = cb_factory' result in*)
- PX.process_entity config entry entity_manager cb;
+ let xml_parser = XPP.create_parser cb in
+ let xml_source = `Gzip_file filename in
+ (try XPP.parse xml_parser xml_source
+ with (XPP.Parse_error err) as exn -> raise exn);
!result
\f
let node2 = Random.int m in
let op =
let r = Random.float 1.0 in
- if r < ge_percent then
- Ge
- else (if r < (ge_percent +. gt_percent) then
- Gt
- else
- Eq)
+ if r < ge_percent then
+ Ge
+ else (if r < (ge_percent +. gt_percent) then
+ Gt
+ else
+ Eq)
in
op,node1,node2
in
let rec aux n =
match n with
- 0 -> []
+ 0 -> []
| n -> (random_step ())::(aux (n-1))
in
aux n
let print_action_list l =
let string_of_step (op,node1,node2) =
(match op with
- Ge -> "Ge"
+ Ge -> "Ge"
| Gt -> "Gt"
| Eq -> "Eq") ^
"," ^ (string_of_int node1) ^ "," ^ (string_of_int node2)
in
let rec aux l =
match l with
- [] -> "]"
+ [] -> "]"
| a::tl ->
- ";" ^ (string_of_step a) ^ (aux tl)
+ ";" ^ (string_of_step a) ^ (aux tl)
in
let body = aux l in
let l_body = (String.length body) - 1 in
let prform_step ?(fast=false) (t,u,v) g =
let f,str =
match t with
- Ge -> add_ge,">="
- | Gt -> add_gt,">"
- | Eq -> add_eq,"="
+ Ge -> add_ge,">="
+ | Gt -> add_gt,">"
+ | Eq -> add_eq,"="
in
d_print_endline (
- "Aggiungo " ^
- (string_of_int u) ^
- " " ^ str ^ " " ^
- (string_of_int v));
+ "Aggiungo " ^
+ (string_of_int u) ^
+ " " ^ str ^ " " ^
+ (string_of_int v));
let g' = f ~fast (u,None) (v,None) g in
- (*print_ugraph g' ;*)
- g'
+ (*print_ugraph g' ;*)
+ g'
in
let fail = ref false in
let time1 = Unix.gettimeofday () in
try
d_print_endline "SAFE";
List.fold_left (
- fun g e ->
- n_safe := !n_safe + 1;
- prform_step e g
+ fun g e ->
+ n_safe := !n_safe + 1;
+ prform_step e g
) empty_ugraph action_list
with
- UniverseInconsistency s -> fail:=true;empty_bag
+ UniverseInconsistency s -> fail:=true;empty_bag
in
let time2 = Unix.gettimeofday () in
d_print_ugraph g_safe;
try
d_print_endline "FAST";
List.fold_left (
- fun g e ->
- n_test := !n_test + 1;
+ fun g e ->
+ n_test := !n_test + 1;
prform_step ~fast:true e g
) empty_ugraph action_list
with
d_print_ugraph g_test;
if are_ugraph_eq g_safe g_test && !n_test = !n_safe then
begin
- let num_eq =
- List.fold_left (
- fun s (e,_,_) ->
- if e = Eq then s+1 else s
- ) 0 action_list
- in
- let num_gt =
- List.fold_left (
+ let num_eq =
+ List.fold_left (
+ fun s (e,_,_) ->
+ if e = Eq then s+1 else s
+ ) 0 action_list
+ in
+ let num_gt =
+ List.fold_left (
fun s (e,_,_) ->
if e = Gt then s+1 else s
) 0 action_list
in
- let num_ge = max_edges - num_gt - num_eq in
- let time_fast = (time4 -. time3) in
- let time_safe = (time2 -. time1) in
- let gap = ((time_safe -. time_fast) *. 100.0) /. time_safe in
- let fail = if !fail then 1 else 0 in
- print_endline
- (sprintf
- "OK %d safe %1.4f fast %1.4f %% %1.2f #eq %d #gt %d #ge %d %d"
- fail time_safe time_fast gap num_eq num_gt num_ge !n_safe);
- exit 0
+ let num_ge = max_edges - num_gt - num_eq in
+ let time_fast = (time4 -. time3) in
+ let time_safe = (time2 -. time1) in
+ let gap = ((time_safe -. time_fast) *. 100.0) /. time_safe in
+ let fail = if !fail then 1 else 0 in
+ print_endline
+ (sprintf
+ "OK %d safe %1.4f fast %1.4f %% %1.2f #eq %d #gt %d #ge %d %d"
+ fail time_safe time_fast gap num_eq num_gt num_ge !n_safe);
+ exit 0
end
else
begin
- print_endline "FAIL";
+ print_endline "FAIL";
print_ugraph g_safe;
print_ugraph g_test;
- exit 1
+ exit 1
end
;;
MAL.add (recons_univ universe) (recons_entry entry) map)
graph MAL.empty
+let assert_univ u =
+ match u with
+ | (_,None) -> raise (UniverseInconsistency "This universe graph has a hole")
+ | _ -> ()
+
+let assert_univs_have_uri graph =
+ let assert_set s =
+ SOF.iter (fun u -> assert_univ u) s
+ in
+ let assert_entry e =
+ assert_set e.eq_closure;
+ assert_set e.ge_closure;
+ assert_set e.gt_closure;
+ assert_set e.in_gegt_of;
+ assert_set e.one_s_eq;
+ assert_set e.one_s_ge;
+ assert_set e.one_s_gt;
+ in
+ MAL.iter (fun k v -> assert_univ k; assert_entry v)graph
+
+
(* EOF *)