/* Part of SWI-Prolog Author: Jan Wielemaker E-mail: J.Wielemaker@vu.nl WWW: http://www.swi-prolog.org Copyright (c) 2009-2017, VU University, Amsterdam All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ :- module(persistency, [ (persistent)/1, % +Declarations current_persistent_predicate/1, % :PI db_attach/2, % :File, +Options db_detach/0, db_attached/1, % :File db_sync/1, % :What db_sync_all/1, % +What op(1150, fx, (persistent)) ]). :- use_module(library(debug)). :- use_module(library(error)). :- use_module(library(option)). :- use_module(library(aggregate)). :- predicate_options(db_attach/2, 2, [ sync(oneof([close,flush,none])) ]). /** Provide persistent dynamic predicates This module provides simple persistent storage for one or more dynamic predicates. A database is always associated with a module. A module that wishes to maintain a database must declare the terms that can be placed in the database using the directive persistent/1. The persistent/1 expands each declaration into four predicates: * name(Arg, ...) * assert_name(Arg, ...) * retract_name(Arg, ...) * retractall_name(Arg, ...) As mentioned, a database can only be accessed from within a single module. This limitation is on purpose, forcing the user to provide a proper API for accessing the shared persistent data. Below is a simple example: == :- module(user_db, [ attach_user_db/1, % +File current_user_role/2, % ?User, ?Role add_user/2, % +User, +Role set_user_role/2 % +User, +Role ]). :- use_module(library(persistency)). :- persistent user_role(name:atom, role:oneof([user,administrator])). attach_user_db(File) :- db_attach(File, []). %% current_user_role(+Name, -Role) is semidet. current_user_role(Name, Role) :- with_mutex(user_db, user_role(Name, Role)). add_user(Name, Role) :- assert_user_role(Name, Role). set_user_role(Name, Role) :- user_role(Name, Role), !. set_user_role(Name, Role) :- with_mutex(user_db, ( retractall_user_role(Name, _), assert_user_role(Name, Role))). == @tbd Provide type safety while loading @tbd Thread safety must now be provided at the user-level. Can we provide generic thread safety? Basically, this means that we must wrap all exported predicates. That might better be done outside this library. @tbd Transaction management? @tbd Should assert_ only assert if the database does not contain a variant? */ :- meta_predicate db_attach(:, +), db_attached(:), db_sync(:), current_persistent_predicate(:). :- module_transparent db_detach/0. /******************************* * DB * *******************************/ :- dynamic db_file/5, % Module, File, Created, Modified, EndPos db_stream/2, % Module, Stream db_dirty/2, % Module, Deleted db_option/2. % Module, Name(Value) :- volatile db_stream/2. :- multifile (persistent)/3, % Module, Generic, Term prolog:generated_predicate/1. /******************************* * DECLARATIONS * *******************************/ %! persistent(+Spec) % % Declare dynamic database terms. Declarations appear in a % directive and have the following format: % % == % :- persistent % , % , % ... % == % % Each specification is a callable term, following the conventions % of library(record), where each argument is of the form % % name:type % % Types are defined by library(error). persistent(Spec) :- throw(error(context_error(nodirective, persistent(Spec)), _)). compile_persistent(Var, _, _) --> { var(Var), !, instantiation_error(Var) }. compile_persistent(M:Spec, _, LoadModule) --> !, compile_persistent(Spec, M, LoadModule). compile_persistent((A,B), Module, LoadModule) --> !, compile_persistent(A, Module, LoadModule), compile_persistent(B, Module, LoadModule). compile_persistent(Term, Module, LoadModule) --> { functor(Term, Name, Arity), % Validates Term as callable functor(Generic, Name, Arity), qualify(Module, LoadModule, Name/Arity, Dynamic) }, [ :- dynamic(Dynamic), persistency:persistent(Module, Generic, Term) ], assert_clause(asserta, Term, Module, LoadModule), assert_clause(assert, Term, Module, LoadModule), retract_clause(Term, Module, LoadModule), retractall_clause(Term, Module, LoadModule). assert_clause(Where, Term, Module, LoadModule) --> { functor(Term, Name, Arity), atomic_list_concat([Where,'_', Name], PredName), length(Args, Arity), Head =.. [PredName|Args], Assert =.. [Name|Args], type_checkers(Args, 1, Term, Check), atom_concat(db_, Where, DBActionName), DBAction =.. [DBActionName, Module:Assert], qualify(Module, LoadModule, Head, QHead), Clause = (QHead :- Check, persistency:DBAction) }, [ Clause ]. type_checkers([], _, _, true). type_checkers([A0|AL], I, Spec, Check) :- arg(I, Spec, ArgSpec), ( ArgSpec = _Name:Type, nonvar(Type), Type \== any -> Check = (must_be(Type, A0),More) ; More = Check ), I2 is I + 1, type_checkers(AL, I2, Spec, More). retract_clause(Term, Module, LoadModule) --> { functor(Term, Name, Arity), atom_concat(retract_, Name, PredName), length(Args, Arity), Head =.. [PredName|Args], Retract =.. [Name|Args], qualify(Module, LoadModule, Head, QHead), Clause = (QHead :- persistency:db_retract(Module:Retract)) }, [ Clause ]. retractall_clause(Term, Module, LoadModule) --> { functor(Term, Name, Arity), atom_concat(retractall_, Name, PredName), length(Args, Arity), Head =.. [PredName|Args], Retract =.. [Name|Args], qualify(Module, LoadModule, Head, QHead), Clause = (QHead :- persistency:db_retractall(Module:Retract)) }, [ Clause ]. qualify(Module, Module, Head, Head) :- !. qualify(Module, _LoadModule, Head, Module:Head). :- multifile system:term_expansion/2. system:term_expansion((:- persistent(Spec)), Clauses) :- prolog_load_context(module, Module), phrase(compile_persistent(Spec, Module, Module), Clauses). %! current_persistent_predicate(:PI) is nondet. % % True if PI is a predicate that provides access to the persistent % database DB. current_persistent_predicate(M:PName/Arity) :- persistency:persistent(M, Generic, _), functor(Generic, Name, Arity), ( Name = PName ; atom_concat(assert_, Name, PName) ; atom_concat(retract_, Name, PName) ; atom_concat(retractall_, Name, PName) ). prolog:generated_predicate(PI) :- current_persistent_predicate(PI). /******************************* * ATTACH * *******************************/ %! db_attach(:File, +Options) % % Use File as persistent database for the calling module. The calling % module must defined persistent/1 to declare the database terms. % Defined options: % % - sync(+Sync) % One of =close= (close journal after write), =flush= % (default, flush journal after write) or =none= % (handle as fully buffered stream). % % If File is already attached this operation may change the `sync` % behaviour. db_attach(Module:File, Options) :- db_set_options(Module, Options), db_attach_file(Module, File). db_set_options(Module, Options) :- option(sync(Sync), Options, flush), must_be(oneof([close,flush,none]), Sync), ( db_option(Module, sync(Sync)) -> true ; retractall(db_option(Module, _)), assert(db_option(Module, sync(Sync))) ). db_attach_file(Module, File) :- db_file(Module, Old, _, _, _), % we already have a db !, ( Old == File -> ( db_stream(Module, Stream) -> sync(Module, Stream) ; true ) ; permission_error(attach, db, File) ). db_attach_file(Module, File) :- db_load(Module, File), !. db_attach_file(Module, File) :- assert(db_file(Module, File, 0, 0, 0)). db_load(Module, File) :- retractall(db_file(Module, _, _, _, _)), debug(db, 'Loading database ~w', [File]), catch(setup_call_cleanup( open(File, read, In, [encoding(utf8)]), load_db_end(In, Module, Created, EndPos), close(In)), error(existence_error(source_sink, File), _), fail), debug(db, 'Loaded ~w', [File]), time_file(File, Modified), assert(db_file(Module, File, Created, Modified, EndPos)). db_load_incremental(Module, File) :- db_file(Module, File, Created, _, EndPos0), setup_call_cleanup( ( open(File, read, In, [encoding(utf8)]), read_action(In, created(Created0)), set_stream_position(In, EndPos0) ), ( Created0 == Created, debug(db, 'Incremental load from ~p', [EndPos0]), load_db_end(In, Module, _Created, EndPos) ), close(In)), debug(db, 'Updated ~w', [File]), time_file(File, Modified), retractall(db_file(Module, File, Created, _, _)), assert(db_file(Module, File, Created, Modified, EndPos)). load_db_end(In, Module, Created, End) :- read_action(In, T0), ( T0 = created(Created) -> read_action(In, T1) ; T1 = T0, Created = 0 ), load_db(T1, In, Module), stream_property(In, position(End)). load_db(end_of_file, _, _) :- !. load_db(assert(Term), In, Module) :- persistent(Module, Term, _Types), !, assert(Module:Term), read_action(In, T1), load_db(T1, In, Module). load_db(asserta(Term), In, Module) :- persistent(Module, Term, _Types), !, asserta(Module:Term), read_action(In, T1), load_db(T1, In, Module). load_db(retractall(Term, Count), In, Module) :- persistent(Module, Term, _Types), !, retractall(Module:Term), set_dirty(Module, Count), read_action(In, T1), load_db(T1, In, Module). load_db(retract(Term), In, Module) :- persistent(Module, Term, _Types), !, ( retract(Module:Term) -> set_dirty(Module, 1) ; true ), read_action(In, T1), load_db(T1, In, Module). load_db(Term, In, Module) :- print_message(error, illegal_term(Term)), read_action(In, T1), load_db(T1, In, Module). db_clean(Module) :- retractall(db_dirty(Module, _)), ( persistent(Module, Term, _Types), retractall(Module:Term), fail ; true ). %! db_size(+Module, -Terms) is det. % % Terms is the total number of terms in the DB for Module. db_size(Module, Total) :- aggregate_all(sum(Count), persistent_size(Module, Count), Total). persistent_size(Module, Count) :- persistent(Module, Term, _Types), predicate_property(Module:Term, number_of_clauses(Count)). %! db_attached(:File) is semidet. % % True if the context module attached to the persistent database File. db_attached(Module:File) :- db_file(Module, File, _Created, _Modified, _EndPos). %! db_assert(:Term) is det. % % Assert Term into the database and record it for persistency. % Note that if the on-disk file has been modified it is first % reloaded. :- public db_assert/1, db_asserta/1, db_retractall/1, db_retract/1. db_assert(Module:Term) :- assert(Module:Term), persistent(Module, assert(Term)). db_asserta(Module:Term) :- asserta(Module:Term), persistent(Module, asserta(Term)). persistent(Module, Action) :- ( db_stream(Module, Stream) -> true ; db_file(Module, File, _Created, _Modified, _EndPos) -> db_sync(Module, update), % Is this correct? db_open_file(File, append, Stream), assert(db_stream(Module, Stream)) ; existence_error(db_file, Module) ), write_action(Stream, Action), sync(Module, Stream). db_open_file(File, Mode, Stream) :- open(File, Mode, Stream, [ close_on_abort(false), encoding(utf8), lock(write) ]), ( size_file(File, 0) -> get_time(Now), write_action(Stream, created(Now)) ; true ). %! db_detach is det. % % Detach persistency from the calling module and delete all % persistent clauses from the Prolog database. Note that the file % is not affected. After this operation another file may be % attached, providing it satisfies the same persistency % declaration. db_detach :- context_module(Module), db_sync(Module:detach), db_clean(Module). %! sync(+Module, +Stream) is det. % % Synchronise journal after a write. Using =close=, the journal % file is closed, making it easier to edit the file externally. % Using =flush= flushes the stream but does not close it. This % provides better performance. Using =none=, the stream is not % even flushed. This makes the journal sensitive to crashes, but % much faster. sync(Module, Stream) :- db_option(Module, sync(Sync)), ( Sync == close -> db_sync(Module, close) ; Sync == flush -> flush_output(Stream) ; true ). read_action(Stream, Action) :- read_term(Stream, Action, [module(db)]). write_action(Stream, Action) :- \+ \+ ( numbervars(Action, 0, _, [singletons(true)]), format(Stream, '~W.~n', [ Action, [ quoted(true), numbervars(true), module(db) ] ]) ). %! db_retractall(:Term) is det. % % Retract all matching facts and do the same in the database. If % Term is unbound, persistent/1 from the calling module is used as % generator. db_retractall(Module:Term) :- ( var(Term) -> forall(persistent(Module, Term, _Types), db_retractall(Module:Term)) ; State = count(0), ( retract(Module:Term), arg(1, State, C0), C1 is C0+1, nb_setarg(1, State, C1), fail ; arg(1, State, Count) ), ( Count > 0 -> set_dirty(Module, Count), persistent(Module, retractall(Term, Count)) ; true ) ). %! db_retract(:Term) is nondet. % % Retract terms from the database one-by-one. db_retract(Module:Term) :- ( var(Term) -> instantiation_error(Term) ; retract(Module:Term), set_dirty(Module, 1), persistent(Module, retract(Term)) ). set_dirty(_, 0) :- !. set_dirty(Module, Count) :- ( retract(db_dirty(Module, C0)) -> true ; C0 = 0 ), C1 is C0 + Count, assert(db_dirty(Module, C1)). %! db_sync(:What) % % Synchronise database with the associated file. What is one of: % % * reload % Database is reloaded from file if the file was modified % since loaded. % * update % As `reload`, but use incremental loading if possible. % This allows for two processes to examine the same database % file, where one writes the database and the other periodycally % calls db_sync(update) to follow the modified data. % * gc % Database was re-written, deleting all retractall % statements. This is the same as gc(50). % * gc(Percentage) % GC DB if the number of deleted terms is the given % percentage of the total number of terms. % * close % Database stream was closed % * detach % Remove all registered persistency for the calling module % * nop % No-operation performed % % With unbound What, db_sync/1 reloads the database if it was % modified on disk, gc it if it is dirty and close it if it is % opened. db_sync(Module:What) :- db_sync(Module, What). db_sync(Module, reload) :- \+ db_stream(Module, _), % not open db_file(Module, File, _Created, ModifiedWhenLoaded, _EndPos), catch(time_file(File, Modified), _, fail), Modified > ModifiedWhenLoaded, % Externally modified !, debug(db, 'Database ~w was externally modified; reloading', [File]), !, ( catch(db_load_incremental(Module, File), E, ( print_message(warning, E), fail )) -> true ; db_clean(Module), db_load(Module, File) ). db_sync(Module, gc) :- !, db_sync(Module, gc(50)). db_sync(Module, gc(When)) :- db_dirty(Module, Dirty), ( When == always -> true ; db_size(Module, Total), ( Total > 0 -> Perc is (100*Dirty)/Total, Perc > When ; Dirty > 0 ) ), !, db_sync(Module, close), db_file(Module, File, _, Modified, _), atom_concat(File, '.new', NewFile), debug(db, 'Database ~w is dirty; cleaning', [File]), get_time(Created), catch(setup_call_cleanup( db_open_file(NewFile, write, Out), ( persistent(Module, Term, _Types), call(Module:Term), write_action(Out, assert(Term)), fail ; stream_property(Out, position(EndPos)) ), close(Out)), Error, ( catch(delete_file(NewFile),_,fail), throw(Error))), retractall(db_file(Module, File, _, Modified, _)), rename_file(NewFile, File), time_file(File, NewModified), assert(db_file(Module, File, Created, NewModified, EndPos)). db_sync(Module, close) :- retract(db_stream(Module, Stream)), !, db_file(Module, File, Created, _, _), debug(db, 'Database ~w is open; closing', [File]), stream_property(Stream, position(EndPos)), close(Stream), time_file(File, Modified), retractall(db_file(Module, File, _, _, _)), assert(db_file(Module, File, Created, Modified, EndPos)). db_sync(Module, Action) :- Action == detach, !, ( retract(db_stream(Module, Stream)) -> close(Stream) ; true ), retractall(db_file(Module, _, _, _, _)), retractall(db_dirty(Module, _)), retractall(db_option(Module, _)). db_sync(_, nop) :- !. db_sync(_, _). %! db_sync_all(+What) % % Sync all registered databases. db_sync_all(What) :- must_be(oneof([reload,gc,gc(_),close]), What), forall(db_file(Module, _, _, _, _), db_sync(Module:What)). /******************************* * CLOSE * *******************************/ close_dbs :- forall(retract(db_stream(_Module, Stream)), close(Stream)). :- at_halt(close_dbs).