exception Goal_is_not_an_equation
-let debug_print = fun _ -> ()
+let debug = false
+let debug_print s = if debug then prerr_endline (Lazy.force s)
(** maps a shell like pattern (which uses '*' and '?') to a sql pattern for
* the "like" operator (which uses '%' and '_'). Does not support escaping. *)
let nonvar uri = not (UriManager.uri_is_var uri)
-let locate ~(dbd:Mysql.dbd) ?(vars = false) pat =
+let locate ~(dbd:HMysql.dbd) ?(vars = false) pat =
let sql_pat = sqlpat_of_shellglob pat in
let query =
sprintf ("SELECT source FROM %s WHERE value LIKE \"%s\" UNION "^^
(MetadataTypes.name_tbl ()) sql_pat
MetadataTypes.library_name_tbl sql_pat
in
- let result = Mysql.exec dbd query in
+ let result = HMysql.exec dbd query in
List.filter nonvar
- (Mysql.map result
+ (HMysql.map result
(fun cols -> match cols.(0) with Some s -> UriManager.uri_of_string s | _ -> assert false))
-let match_term ~(dbd:Mysql.dbd) ty =
-(* debug_print (CicPp.ppterm ty); *)
+let match_term ~(dbd:HMysql.dbd) ty =
+(* debug_print (lazy (CicPp.ppterm ty)); *)
let metadata = MetadataExtractor.compute ~body:None ~ty in
let constants_no =
MetadataConstraints.UriManagerSet.cardinal (MetadataConstraints.constants_of ty)
fun ~dbd ~facts signature -> profiler.profile (Constr.cmatch' ~dbd ~facts) signature
*) let apply_tac_verbose = PrimitiveTactics.apply_tac_verbose let cmatch' = Constr.cmatch'
-let signature_of_goal ~(dbd:Mysql.dbd) ((proof, goal) as status) =
+let signature_of_goal ~(dbd:HMysql.dbd) ((proof, goal) as status) =
let (_, metasenv, _, _) = proof in
let (_, context, ty) = CicUtil.lookup_meta goal metasenv in
let main, sig_constants = Constr.signature_of ty in
let uris = List.filter Hashtbl_equiv.not_a_duplicate uris in
uris
-let equations_for_goal ~(dbd:Mysql.dbd) ((proof, goal) as status) =
+let equations_for_goal ~(dbd:HMysql.dbd) ((proof, goal) as status) =
+ let to_string set =
+ "{ " ^
+ (String.concat ", "
+ (Constr.UriManagerSet.fold
+ (fun u l -> (UriManager.string_of_uri u)::l) set []))
+ ^ " }"
+ in
let (_, metasenv, _, _) = proof in
let (_, context, ty) = CicUtil.lookup_meta goal metasenv in
let main, sig_constants = Constr.signature_of ty in
- match main with
- None -> raise Goal_is_not_an_equation
- | Some (m,l) ->
- if m == UriManager.uri_of_string HelmLibraryObjects.Logic.eq_XURI then
- let set = signature_of_hypothesis context in
- let set = Constr.UriManagerSet.union set sig_constants in
- let set = close_with_types set metasenv context in
- let set = close_with_constructors set metasenv context in
- let set = List.fold_right Constr.UriManagerSet.remove (m::l) set in
- let uris =
- sigmatch ~dbd ~facts:false ~where:`Statement (main,set) in
- let uris = List.filter nonvar (List.map snd uris) in
- let uris = List.filter Hashtbl_equiv.not_a_duplicate uris in
- uris
- else raise Goal_is_not_an_equation
+(* Printf.printf "\nsig_constants: %s\n\n" (to_string sig_constants); *)
+(* match main with *)
+(* None -> raise Goal_is_not_an_equation *)
+(* | Some (m,l) -> *)
+ let m, l =
+ let eq_URI =
+ let us = UriManager.string_of_uri (LibraryObjects.eq_URI ()) in
+ UriManager.uri_of_string (us ^ "#xpointer(1/1)")
+ in
+ match main with
+ | None -> eq_URI, []
+ | Some (m, l) when UriManager.eq m eq_URI -> m, l
+ | Some (m, l) -> eq_URI, []
+ in
+ Printf.printf "\nSome (m, l): %s, [%s]\n\n"
+ (UriManager.string_of_uri m)
+ (String.concat "; " (List.map UriManager.string_of_uri l));
+ (* if m == UriManager.uri_of_string HelmLibraryObjects.Logic.eq_XURI then ( *)
+ let set = signature_of_hypothesis context in
+ (* Printf.printf "\nsignature_of_hypothesis: %s\n\n" (to_string set); *)
+ let set = Constr.UriManagerSet.union set sig_constants in
+ let set = close_with_types set metasenv context in
+ (* Printf.printf "\ndopo close_with_types: %s\n\n" (to_string set); *)
+ let set = close_with_constructors set metasenv context in
+ (* Printf.printf "\ndopo close_with_constructors: %s\n\n" (to_string set); *)
+ let set = List.fold_right Constr.UriManagerSet.remove (m::l) set in
+ let uris =
+ sigmatch ~dbd ~facts:false ~where:`Statement (main,set) in
+ let uris = List.filter nonvar (List.map snd uris) in
+ let uris = List.filter Hashtbl_equiv.not_a_duplicate uris in
+ uris
+ (* ) *)
+ (* else raise Goal_is_not_an_equation *)
let experimental_hint
- ~(dbd:Mysql.dbd) ?(facts=false) ?signature ((proof, goal) as status) =
+ ~(dbd:HMysql.dbd) ?(facts=false) ?signature ((proof, goal) as status) =
let (_, metasenv, _, _) = proof in
let (_, context, ty) = CicUtil.lookup_meta goal metasenv in
let (uris, (main, sig_constants)) =
let other_constants =
Constr.UriManagerSet.diff all_constants_closed types_constants
in
- debug_print "all_constants_closed";
- Constr.UriManagerSet.iter debug_print all_constants_closed;
- debug_print "other_constants";
- Constr.UriManagerSet.iter debug_print other_constants;
+ debug_print (lazy "all_constants_closed");
+ if debug then Constr.UriManagerSet.iter (fun s -> debug_print (lazy (UriManager.string_of_uri s))) all_constants_closed;
+ debug_print (lazy "other_constants");
+ if debug then Constr.UriManagerSet.iter (fun s -> debug_print (lazy (UriManager.string_of_uri s))) other_constants;
let uris =
let pow = 2 ** (Constr.UriManagerSet.cardinal other_constants) in
if ((List.length uris < pow) or (pow <= 0))
then begin
- debug_print "MetadataQuery: large sig, falling back to old method";
+ debug_print (lazy "MetadataQuery: large sig, falling back to old method");
filter_uris_forward ~dbd (main, other_constants) uris
end else
filter_uris_backward ~dbd ~facts (main, other_constants) uris
(let status' =
try
let (subst,(proof, goal_list)) =
- (* debug_print ("STO APPLICANDO" ^ uri); *)
+ (* debug_print (lazy ("STO APPLICANDO" ^ uri)); *)
apply_tac_verbose
~term:(CicUtil.term_of_uri uri)
status
(aux uris)
let new_experimental_hint
- ~(dbd:Mysql.dbd) ?(facts=false) ?signature ~universe
+ ~(dbd:HMysql.dbd) ?(facts=false) ?signature ~universe
((proof, goal) as status)
=
let (_, metasenv, _, _) = proof in
(let status' =
try
let (subst,(proof, goal_list)) =
- (* debug_print ("STO APPLICANDO" ^ uri); *)
+ (* debug_print (lazy ("STO APPLICANDO" ^ uri)); *)
apply_tac_verbose
~term:(CicUtil.term_of_uri uri)
status
(* List.iter
(fun x ->
debug_print
- (MetadataPp.pp_constr (MetadataTypes.constr_of_metadata x)))
+ (lazy (MetadataPp.pp_constr (MetadataTypes.constr_of_metadata x))))
metadata; *)
let no_concl = MetadataDb.count_distinct `Conclusion metadata in
let no_hyp = MetadataDb.count_distinct `Hypothesis metadata in
in
match (look_for_dummy_main metadata) with
| None->
-(* debug_print "Caso None"; *)
+(* debug_print (lazy "Caso None"); *)
(* no dummy in main position *)
let metadata = List.filter is_dummy metadata in
let constraints = List.map MetadataTypes.constr_of_metadata metadata in
Constr.at_least ~dbd ?concl_card ?full_card ?diff constraints
| Some (depth, dummy_type) ->
(* debug_print
- (sprintf "Caso Some %d %s" depth (CicPp.ppterm dummy_type)); *)
+ (lazy (sprintf "Caso Some %d %s" depth (CicPp.ppterm dummy_type))); *)
(* a dummy in main position *)
let metadata_for_dummy_type =
MetadataExtractor.compute ~body:None ~ty:dummy_type in
let from = "genLemma" in
let where =
Printf.sprintf "h_outer = \"%s\""
- (Mysql.escape (UriManager.string_of_uri outer)) in
+ (HMysql.escape (UriManager.string_of_uri outer)) in
let query = Printf.sprintf "SELECT %s FROM %s WHERE %s" select from where in
- let result = Mysql.exec dbd query in
- let lemmas = Mysql.map ~f:(map inners) result in
+ let result = HMysql.exec dbd query in
+ let lemmas = HMysql.map ~f:(map inners) result in
let ranked = List.fold_left rank [] lemmas in
let ordered = List.rev (List.fast_sort compare ranked) in
map_filter filter 0 ordered
in
let select, from = "source", "decomposables" in
let query = Printf.sprintf "SELECT %s FROM %s" select from in
- let decomposables = Mysql.map ~f:map (Mysql.exec dbd query) in
+ let decomposables = HMysql.map ~f:map (HMysql.exec dbd query) in
map_filter (fun _ x -> x) 0 decomposables