/* Part of SWI-Prolog Author: Jan Wielemaker E-mail: J.Wielemaker@vu.nl WWW: http://www.swi-prolog.org Copyright (c) 1985-2024, University of Amsterdam VU University Amsterdam CWI, Amsterdam SWI-Prolog Solutions b.v. 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. */ /* Consult, derivates and basic things. This module is loaded by the C-written bootstrap compiler. The $:- directive is executed by the bootstrap compiler, but not inserted in the intermediate code file. Used to print diagnostic messages and start the Prolog defined compiler for the remaining boot modules. If you want to debug this module, put a '$:-'(trace). directive somewhere. The tracer will work properly under boot compilation as it will use the C defined write predicate to print goals and does not attempt to call the Prolog defined trace interceptor. */ /******************************** * LOAD INTO MODULE SYSTEM * ********************************/ :- '$set_source_module'(system). '$boot_message'(_Format, _Args) :- current_prolog_flag(verbose, silent), !. '$boot_message'(Format, Args) :- format(Format, Args), !. '$:-'('$boot_message'('Loading boot file ...~n', [])). %! memberchk(?E, ?List) is semidet. % % Semantically equivalent to once(member(E,List)). Implemented in C. % If List is partial though we need to do the work in Prolog to get % the proper constraint behavior. Needs to be defined early as the % boot code uses it. memberchk(E, List) :- '$memberchk'(E, List, Tail), ( nonvar(Tail) -> true ; Tail = [_|_], memberchk(E, Tail) ). /******************************** * DIRECTIVES * *********************************/ :- meta_predicate dynamic(:), multifile(:), public(:), module_transparent(:), discontiguous(:), volatile(:), thread_local(:), noprofile(:), non_terminal(:), det(:), '$clausable'(:), '$iso'(:), '$hide'(:), '$notransact'(:). %! dynamic(+Spec) is det. %! multifile(+Spec) is det. %! module_transparent(+Spec) is det. %! discontiguous(+Spec) is det. %! volatile(+Spec) is det. %! thread_local(+Spec) is det. %! noprofile(+Spec) is det. %! public(+Spec) is det. %! non_terminal(+Spec) is det. % % Predicate versions of standard directives that set predicate % attributes. These predicates bail out with an error on the first % failure (typically permission errors). %! '$iso'(+Spec) is det. % % Set the ISO flag. This defines that the predicate cannot be % redefined inside a module. %! '$clausable'(+Spec) is det. % % Specify that we can run clause/2 on a predicate, even if it is % static. ISO specifies that `public` also plays this role. in SWI, % `public` means that the predicate can be called, even if we cannot % find a reference to it. %! '$hide'(+Spec) is det. % % Specify that the predicate cannot be seen in the debugger. dynamic(Spec) :- '$set_pattr'(Spec, pred, dynamic(true)). multifile(Spec) :- '$set_pattr'(Spec, pred, multifile(true)). module_transparent(Spec) :- '$set_pattr'(Spec, pred, transparent(true)). discontiguous(Spec) :- '$set_pattr'(Spec, pred, discontiguous(true)). volatile(Spec) :- '$set_pattr'(Spec, pred, volatile(true)). thread_local(Spec) :- '$set_pattr'(Spec, pred, thread_local(true)). noprofile(Spec) :- '$set_pattr'(Spec, pred, noprofile(true)). public(Spec) :- '$set_pattr'(Spec, pred, public(true)). non_terminal(Spec) :- '$set_pattr'(Spec, pred, non_terminal(true)). det(Spec) :- '$set_pattr'(Spec, pred, det(true)). '$iso'(Spec) :- '$set_pattr'(Spec, pred, iso(true)). '$clausable'(Spec) :- '$set_pattr'(Spec, pred, clausable(true)). '$hide'(Spec) :- '$set_pattr'(Spec, pred, trace(false)). '$notransact'(Spec) :- '$set_pattr'(Spec, pred, transact(false)). '$set_pattr'(M:Pred, How, Attr) :- '$set_pattr'(Pred, M, How, Attr). %! '$set_pattr'(+Spec, +Module, +From, +Attr) % % Set predicate attributes. From is one of `pred` or `directive`. '$set_pattr'(X, _, _, _) :- var(X), '$uninstantiation_error'(X). '$set_pattr'(as(Spec,Options), M, How, Attr0) :- !, '$attr_options'(Options, Attr0, Attr), '$set_pattr'(Spec, M, How, Attr). '$set_pattr'([], _, _, _) :- !. '$set_pattr'([H|T], M, How, Attr) :- % ISO !, '$set_pattr'(H, M, How, Attr), '$set_pattr'(T, M, How, Attr). '$set_pattr'((A,B), M, How, Attr) :- % ISO and traditional !, '$set_pattr'(A, M, How, Attr), '$set_pattr'(B, M, How, Attr). '$set_pattr'(M:T, _, How, Attr) :- !, '$set_pattr'(T, M, How, Attr). '$set_pattr'(PI, M, _, []) :- !, '$pi_head'(M:PI, Pred), '$set_table_wrappers'(Pred). '$set_pattr'(A, M, How, [O|OT]) :- !, '$set_pattr'(A, M, How, O), '$set_pattr'(A, M, How, OT). '$set_pattr'(A, M, pred, Attr) :- !, Attr =.. [Name,Val], '$set_pi_attr'(M:A, Name, Val). '$set_pattr'(A, M, directive, Attr) :- !, Attr =.. [Name,Val], catch('$set_pi_attr'(M:A, Name, Val), error(E, _), print_message(error, error(E, context((Name)/1,_)))). '$set_pi_attr'(PI, Name, Val) :- '$pi_head'(PI, Head), '$set_predicate_attribute'(Head, Name, Val). '$attr_options'(Var, _, _) :- var(Var), !, '$uninstantiation_error'(Var). '$attr_options'((A,B), Attr0, Attr) :- !, '$attr_options'(A, Attr0, Attr1), '$attr_options'(B, Attr1, Attr). '$attr_options'(Opt, Attr0, Attrs) :- '$must_be'(ground, Opt), ( '$attr_option'(Opt, AttrX) -> ( is_list(Attr0) -> '$join_attrs'(AttrX, Attr0, Attrs) ; '$join_attrs'(AttrX, [Attr0], Attrs) ) ; '$domain_error'(predicate_option, Opt) ). '$join_attrs'([], Attrs, Attrs) :- !. '$join_attrs'([H|T], Attrs0, Attrs) :- !, '$join_attrs'(H, Attrs0, Attrs1), '$join_attrs'(T, Attrs1, Attrs). '$join_attrs'(Attr, Attrs, Attrs) :- memberchk(Attr, Attrs), !. '$join_attrs'(Attr, Attrs, Attrs) :- Attr =.. [Name,Value], Gen =.. [Name,Existing], memberchk(Gen, Attrs), !, throw(error(conflict_error(Name, Value, Existing), _)). '$join_attrs'(Attr, Attrs0, Attrs) :- '$append'(Attrs0, [Attr], Attrs). '$attr_option'(incremental, [incremental(true),opaque(false)]). '$attr_option'(monotonic, monotonic(true)). '$attr_option'(lazy, lazy(true)). '$attr_option'(opaque, [incremental(false),opaque(true)]). '$attr_option'(abstract(Level0), abstract(Level)) :- '$table_option'(Level0, Level). '$attr_option'(subgoal_abstract(Level0), subgoal_abstract(Level)) :- '$table_option'(Level0, Level). '$attr_option'(answer_abstract(Level0), answer_abstract(Level)) :- '$table_option'(Level0, Level). '$attr_option'(max_answers(Level0), max_answers(Level)) :- '$table_option'(Level0, Level). '$attr_option'(volatile, volatile(true)). '$attr_option'(multifile, multifile(true)). '$attr_option'(discontiguous, discontiguous(true)). '$attr_option'(shared, thread_local(false)). '$attr_option'(local, thread_local(true)). '$attr_option'(private, thread_local(true)). '$table_option'(Value0, _Value) :- var(Value0), !, '$instantiation_error'(Value0). '$table_option'(Value0, Value) :- integer(Value0), Value0 >= 0, !, Value = Value0. '$table_option'(off, -1) :- !. '$table_option'(false, -1) :- !. '$table_option'(infinite, -1) :- !. '$table_option'(Value, _) :- '$domain_error'(nonneg_or_false, Value). %! '$pattr_directive'(+Spec, +Module) is det. % % This implements the directive version of dynamic/1, multifile/1, % etc. This version catches and prints errors. If the directive % specifies multiple predicates, processing after an error % continues with the remaining predicates. '$pattr_directive'(dynamic(Spec), M) :- '$set_pattr'(Spec, M, directive, dynamic(true)). '$pattr_directive'(multifile(Spec), M) :- '$set_pattr'(Spec, M, directive, multifile(true)). '$pattr_directive'(module_transparent(Spec), M) :- '$set_pattr'(Spec, M, directive, transparent(true)). '$pattr_directive'(discontiguous(Spec), M) :- '$set_pattr'(Spec, M, directive, discontiguous(true)). '$pattr_directive'(volatile(Spec), M) :- '$set_pattr'(Spec, M, directive, volatile(true)). '$pattr_directive'(thread_local(Spec), M) :- '$set_pattr'(Spec, M, directive, thread_local(true)). '$pattr_directive'(noprofile(Spec), M) :- '$set_pattr'(Spec, M, directive, noprofile(true)). '$pattr_directive'(public(Spec), M) :- '$set_pattr'(Spec, M, directive, public(true)). '$pattr_directive'(det(Spec), M) :- '$set_pattr'(Spec, M, directive, det(true)). %! '$pi_head'(?PI, ?Head) '$pi_head'(PI, Head) :- var(PI), var(Head), '$instantiation_error'([PI,Head]). '$pi_head'(M:PI, M:Head) :- !, '$pi_head'(PI, Head). '$pi_head'(Name/Arity, Head) :- !, '$head_name_arity'(Head, Name, Arity). '$pi_head'(Name//DCGArity, Head) :- !, ( nonvar(DCGArity) -> Arity is DCGArity+2, '$head_name_arity'(Head, Name, Arity) ; '$head_name_arity'(Head, Name, Arity), DCGArity is Arity - 2 ). '$pi_head'(PI, _) :- '$type_error'(predicate_indicator, PI). %! '$head_name_arity'(+Goal, -Name, -Arity). %! '$head_name_arity'(-Goal, +Name, +Arity). '$head_name_arity'(Goal, Name, Arity) :- ( atom(Goal) -> Name = Goal, Arity = 0 ; compound(Goal) -> compound_name_arity(Goal, Name, Arity) ; var(Goal) -> ( Arity == 0 -> ( atom(Name) -> Goal = Name ; Name == [] -> Goal = Name ; blob(Name, closure) -> Goal = Name ; '$type_error'(atom, Name) ) ; compound_name_arity(Goal, Name, Arity) ) ; '$type_error'(callable, Goal) ). :- '$iso'(((dynamic)/1, (multifile)/1, (discontiguous)/1)). /******************************** * CALLING, CONTROL * *********************************/ :- noprofile((call/1, catch/3, once/1, ignore/1, call_cleanup/2, setup_call_cleanup/3, setup_call_catcher_cleanup/4, notrace/1)). :- meta_predicate ';'(0,0), ','(0,0), @(0,+), call(0), call(1,?), call(2,?,?), call(3,?,?,?), call(4,?,?,?,?), call(5,?,?,?,?,?), call(6,?,?,?,?,?,?), call(7,?,?,?,?,?,?,?), not(0), \+(0), $(0), '->'(0,0), '*->'(0,0), once(0), ignore(0), catch(0,?,0), reset(0,?,-), setup_call_cleanup(0,0,0), setup_call_catcher_cleanup(0,0,?,0), call_cleanup(0,0), catch_with_backtrace(0,?,0), notrace(0), '$meta_call'(0). :- '$iso'((call/1, (\+)/1, once/1, (;)/2, (',')/2, (->)/2, catch/3)). % The control structures are always compiled, both if they appear in a % clause body and if they are handed to call/1. The only way to call % these predicates is by means of call/2.. In that case, we call the % hole control structure again to get it compiled by call/1 and properly % deal with !, etc. Another reason for having these things as % predicates is to be able to define properties for them, helping code % analyzers. (M0:If ; M0:Then) :- !, call(M0:(If ; Then)). (M1:If ; M2:Then) :- call(M1:(If ; M2:Then)). (G1 , G2) :- call((G1 , G2)). (If -> Then) :- call((If -> Then)). (If *-> Then) :- call((If *-> Then)). @(Goal,Module) :- @(Goal,Module). %! '$meta_call'(:Goal) % % Interpreted meta-call implementation. By default, call/1 % compiles its argument into a temporary clause. This realises % better performance if the (complex) goal does a lot of % backtracking because this interpreted version needs to % re-interpret the remainder of the goal after backtracking. % % This implementation is used by reset/3 because the continuation % cannot be captured if it contains a such a compiled temporary % clause. '$meta_call'(M:G) :- prolog_current_choice(Ch), '$meta_call'(G, M, Ch). '$meta_call'(Var, _, _) :- var(Var), !, '$instantiation_error'(Var). '$meta_call'((A,B), M, Ch) :- !, '$meta_call'(A, M, Ch), '$meta_call'(B, M, Ch). '$meta_call'((I->T;E), M, Ch) :- !, ( prolog_current_choice(Ch2), '$meta_call'(I, M, Ch2) -> '$meta_call'(T, M, Ch) ; '$meta_call'(E, M, Ch) ). '$meta_call'((I*->T;E), M, Ch) :- !, ( prolog_current_choice(Ch2), '$meta_call'(I, M, Ch2) *-> '$meta_call'(T, M, Ch) ; '$meta_call'(E, M, Ch) ). '$meta_call'((I->T), M, Ch) :- !, ( prolog_current_choice(Ch2), '$meta_call'(I, M, Ch2) -> '$meta_call'(T, M, Ch) ). '$meta_call'((I*->T), M, Ch) :- !, prolog_current_choice(Ch2), '$meta_call'(I, M, Ch2), '$meta_call'(T, M, Ch). '$meta_call'((A;B), M, Ch) :- !, ( '$meta_call'(A, M, Ch) ; '$meta_call'(B, M, Ch) ). '$meta_call'(\+(G), M, _) :- !, prolog_current_choice(Ch), \+ '$meta_call'(G, M, Ch). '$meta_call'($(G), M, _) :- !, prolog_current_choice(Ch), $('$meta_call'(G, M, Ch)). '$meta_call'(call(G), M, _) :- !, prolog_current_choice(Ch), '$meta_call'(G, M, Ch). '$meta_call'(M:G, _, Ch) :- !, '$meta_call'(G, M, Ch). '$meta_call'(!, _, Ch) :- prolog_cut_to(Ch). '$meta_call'(G, M, _Ch) :- call(M:G). %! call(:Closure, ?A). %! call(:Closure, ?A1, ?A2). %! call(:Closure, ?A1, ?A2, ?A3). %! call(:Closure, ?A1, ?A2, ?A3, ?A4). %! call(:Closure, ?A1, ?A2, ?A3, ?A4, ?A5). %! call(:Closure, ?A1, ?A2, ?A3, ?A4, ?A5, ?A6). %! call(:Closure, ?A1, ?A2, ?A3, ?A4, ?A5, ?A6, ?A7). % % Arity 2..8 is demanded by the ISO standard. Higher arities are % supported, but handled by the compiler. This implies they are % not backed up by predicates and analyzers thus cannot ask for % their properties. Analyzers should hard-code handling of % call/2.. :- '$iso'((call/2, call/3, call/4, call/5, call/6, call/7, call/8)). call(Goal) :- % make these available as predicates Goal. call(Goal, A) :- call(Goal, A). call(Goal, A, B) :- call(Goal, A, B). call(Goal, A, B, C) :- call(Goal, A, B, C). call(Goal, A, B, C, D) :- call(Goal, A, B, C, D). call(Goal, A, B, C, D, E) :- call(Goal, A, B, C, D, E). call(Goal, A, B, C, D, E, F) :- call(Goal, A, B, C, D, E, F). call(Goal, A, B, C, D, E, F, G) :- call(Goal, A, B, C, D, E, F, G). %! not(:Goal) is semidet. % % Pre-ISO version of \+/1. Note that some systems define not/1 as % a logically more sound version of \+/1. not(Goal) :- \+ Goal. %! \+(:Goal) is semidet. % % Predicate version that allows for meta-calling. \+ Goal :- \+ Goal. %! once(:Goal) is semidet. % % ISO predicate, acting as call((Goal, !)). once(Goal) :- Goal, !. %! ignore(:Goal) is det. % % Call Goal, cut choice-points on success and succeed on failure. % intended for calling side-effects and proceed on failure. ignore(Goal) :- Goal, !. ignore(_Goal). :- '$iso'((false/0)). %! false. % % Synonym for fail/0, providing a declarative reading. false :- fail. %! catch(:Goal, +Catcher, :Recover) % % ISO compliant exception handling. catch(_Goal, _Catcher, _Recover) :- '$catch'. % Maps to I_CATCH, I_EXITCATCH %! prolog_cut_to(+Choice) % % Cut all choice points after Choice prolog_cut_to(_Choice) :- '$cut'. % Maps to I_CUTCHP %! $ is det. % % Declare that from now on this predicate succeeds deterministically. '$' :- '$'. %! $(:Goal) is det. % % Declare that Goal must succeed deterministically. $(Goal) :- $(Goal). %! notrace(:Goal) is semidet. % % Suspend the tracer while running Goal. :- '$hide'(notrace/1). notrace(Goal) :- setup_call_cleanup( '$notrace'(Flags, SkipLevel), once(Goal), '$restore_trace'(Flags, SkipLevel)). %! reset(:Goal, ?Ball, -Continue) % % Delimited continuation support. reset(_Goal, _Ball, _Cont) :- '$reset'. %! shift(+Ball). %! shift_for_copy(+Ball). % % Shift control back to the enclosing reset/3. The second version % assumes the continuation will be saved to be reused in a different % context. shift(Ball) :- '$shift'(Ball). shift_for_copy(Ball) :- '$shift_for_copy'(Ball). %! call_continuation(+Continuation:list) % % Call a continuation as created by shift/1. The continuation is a % list of '$cont$'(Clause, PC, EnvironmentArg, ...) structures. The % predicate '$call_one_tail_body'/1 creates a frame from the % continuation and calls this. % % Note that we can technically also push the entire continuation onto % the environment and call it. Doing it incrementally as below % exploits last-call optimization and therefore possible quadratic % expansion of the continuation. call_continuation([]). call_continuation([TB|Rest]) :- ( Rest == [] -> '$call_continuation'(TB) ; '$call_continuation'(TB), call_continuation(Rest) ). %! catch_with_backtrace(:Goal, ?Ball, :Recover) % % As catch/3, but tell library(prolog_stack) to record a backtrace in % case of an exception. catch_with_backtrace(Goal, Ball, Recover) :- catch(Goal, Ball, Recover), '$no_lco'. '$no_lco'. %! '$recover_and_rethrow'(:Goal, +Term) % % This goal is used to wrap the catch/3 recover handler if the % exception is not supposed to be `catchable'. This applies to % exceptions of the shape unwind(Term). Note that we cut to ensure % that the exception is not delayed forever because the recover % handler leaves a choicepoint. :- public '$recover_and_rethrow'/2. '$recover_and_rethrow'(Goal, Exception) :- call_cleanup(Goal, throw(Exception)), !. %! call_cleanup(:Goal, :Cleanup). %! setup_call_cleanup(:Setup, :Goal, :Cleanup). %! setup_call_catcher_cleanup(:Setup, :Goal, +Catcher, :Cleanup). % % Call Cleanup once after Goal is finished (deterministic success, % failure, exception or cut). The call to '$call_cleanup' is % translated to ``I_CALLCLEANUP``, ``I_EXITCLEANUP``. These % instructions rely on the exact stack layout left by these % predicates, where the variant is determined by the arity. See also % callCleanupHandler() in `pl-wam.c`. setup_call_catcher_cleanup(Setup, _Goal, _Catcher, _Cleanup) :- sig_atomic(Setup), '$call_cleanup'. setup_call_cleanup(Setup, _Goal, _Cleanup) :- sig_atomic(Setup), '$call_cleanup'. call_cleanup(_Goal, _Cleanup) :- '$call_cleanup'. /******************************* * INITIALIZATION * *******************************/ :- meta_predicate initialization(0, +). :- multifile '$init_goal'/3. :- dynamic '$init_goal'/3. :- '$notransact'('$init_goal'/3). %! initialization(:Goal, +When) % % Register Goal to be executed if a saved state is restored. In % addition, the goal is executed depending on When: % % * now % Execute immediately % * after_load % Execute after loading the file in which it appears. This % is initialization/1. % * restore_state % Do not execute immediately, but only when restoring the % state. Not allowed in a sandboxed environment. % * prepare_state % Called before saving a state. Can be used to clean the % environment (see also volatile/1) or eagerly execute % goals that are normally executed lazily. % * program % Works as =|-g goal|= goals. % * main % Starts the application. Only last declaration is used. % % Note that all goals are executed when a program is restored. initialization(Goal, When) :- '$must_be'(oneof(atom, initialization_type, [ now, after_load, restore, restore_state, prepare_state, program, main ]), When), '$initialization_context'(Source, Ctx), '$initialization'(When, Goal, Source, Ctx). '$initialization'(now, Goal, _Source, Ctx) :- '$run_init_goal'(Goal, Ctx), '$compile_init_goal'(-, Goal, Ctx). '$initialization'(after_load, Goal, Source, Ctx) :- ( Source \== (-) -> '$compile_init_goal'(Source, Goal, Ctx) ; throw(error(context_error(nodirective, initialization(Goal, after_load)), _)) ). '$initialization'(restore, Goal, Source, Ctx) :- % deprecated '$initialization'(restore_state, Goal, Source, Ctx). '$initialization'(restore_state, Goal, _Source, Ctx) :- ( \+ current_prolog_flag(sandboxed_load, true) -> '$compile_init_goal'(-, Goal, Ctx) ; '$permission_error'(register, initialization(restore), Goal) ). '$initialization'(prepare_state, Goal, _Source, Ctx) :- ( \+ current_prolog_flag(sandboxed_load, true) -> '$compile_init_goal'(when(prepare_state), Goal, Ctx) ; '$permission_error'(register, initialization(restore), Goal) ). '$initialization'(program, Goal, _Source, Ctx) :- ( \+ current_prolog_flag(sandboxed_load, true) -> '$compile_init_goal'(when(program), Goal, Ctx) ; '$permission_error'(register, initialization(restore), Goal) ). '$initialization'(main, Goal, _Source, Ctx) :- ( \+ current_prolog_flag(sandboxed_load, true) -> '$compile_init_goal'(when(main), Goal, Ctx) ; '$permission_error'(register, initialization(restore), Goal) ). '$compile_init_goal'(Source, Goal, Ctx) :- atom(Source), Source \== (-), !, '$store_admin_clause'(system:'$init_goal'(Source, Goal, Ctx), _Layout, Source, Ctx). '$compile_init_goal'(Source, Goal, Ctx) :- assertz('$init_goal'(Source, Goal, Ctx)). %! '$run_initialization'(?File, +Options) is det. %! '$run_initialization'(?File, +Action, +Options) is det. % % Run initialization directives for all files if File is unbound, % or for a specified file. Note that '$run_initialization'/2 is % called from runInitialization() in pl-wic.c for .qlf files. The % '$run_initialization'/3 is called with Action set to `loaded` % when called for a QLF file. '$run_initialization'(_, loaded, _) :- !. '$run_initialization'(File, _Action, Options) :- '$run_initialization'(File, Options). '$run_initialization'(File, Options) :- setup_call_cleanup( '$start_run_initialization'(Options, Restore), '$run_initialization_2'(File), '$end_run_initialization'(Restore)). '$start_run_initialization'(Options, OldSandBoxed) :- '$push_input_context'(initialization), '$set_sandboxed_load'(Options, OldSandBoxed). '$end_run_initialization'(OldSandBoxed) :- set_prolog_flag(sandboxed_load, OldSandBoxed), '$pop_input_context'. '$run_initialization_2'(File) :- ( '$init_goal'(File, Goal, Ctx), File \= when(_), '$run_init_goal'(Goal, Ctx), fail ; true ). '$run_init_goal'(Goal, Ctx) :- ( catch_with_backtrace('$run_init_goal'(Goal), E, '$initialization_error'(E, Goal, Ctx)) -> true ; '$initialization_failure'(Goal, Ctx) ). :- multifile prolog:sandbox_allowed_goal/1. '$run_init_goal'(Goal) :- current_prolog_flag(sandboxed_load, false), !, call(Goal). '$run_init_goal'(Goal) :- prolog:sandbox_allowed_goal(Goal), call(Goal). '$initialization_context'(Source, Ctx) :- ( source_location(File, Line) -> Ctx = File:Line, '$input_context'(Context), '$top_file'(Context, File, Source) ; Ctx = (-), File = (-) ). '$top_file'([input(include, F1, _, _)|T], _, F) :- !, '$top_file'(T, F1, F). '$top_file'(_, F, F). '$initialization_error'(E, Goal, Ctx) :- print_message(error, initialization_error(Goal, E, Ctx)). '$initialization_failure'(Goal, Ctx) :- print_message(warning, initialization_failure(Goal, Ctx)). %! '$clear_source_admin'(+File) is det. % % Removes source adminstration related to File % % @see Called from destroySourceFile() in pl-proc.c :- public '$clear_source_admin'/1. '$clear_source_admin'(File) :- retractall('$init_goal'(_, _, File:_)), retractall('$load_context_module'(File, _, _)), retractall('$resolved_source_path_db'(_, _, File)). /******************************* * STREAM * *******************************/ :- '$iso'(stream_property/2). stream_property(Stream, Property) :- nonvar(Stream), nonvar(Property), !, '$stream_property'(Stream, Property). stream_property(Stream, Property) :- nonvar(Stream), !, '$stream_properties'(Stream, Properties), '$member'(Property, Properties). stream_property(Stream, Property) :- nonvar(Property), !, ( Property = alias(Alias), atom(Alias) -> '$alias_stream'(Alias, Stream) ; '$streams_properties'(Property, Pairs), '$member'(Stream-Property, Pairs) ). stream_property(Stream, Property) :- '$streams_properties'(Property, Pairs), '$member'(Stream-Properties, Pairs), '$member'(Property, Properties). /******************************** * MODULES * *********************************/ % '$prefix_module'(+Module, +Context, +Term, -Prefixed) % Tags `Term' with `Module:' if `Module' is not the context module. '$prefix_module'(Module, Module, Head, Head) :- !. '$prefix_module'(Module, _, Head, Module:Head). %! default_module(+Me, -Super) is multi. % % Is true if `Super' is `Me' or a super (auto import) module of `Me'. default_module(Me, Super) :- ( atom(Me) -> ( var(Super) -> '$default_module'(Me, Super) ; '$default_module'(Me, Super), ! ) ; '$type_error'(module, Me) ). '$default_module'(Me, Me). '$default_module'(Me, Super) :- import_module(Me, S), '$default_module'(S, Super). /******************************** * TRACE AND EXCEPTIONS * *********************************/ :- dynamic user:exception/3. :- multifile user:exception/3. :- '$hide'(user:exception/3). %! '$undefined_procedure'(+Module, +Name, +Arity, -Action) is det. % % This predicate is called from C on undefined predicates. First % allows the user to take care of it using exception/3. Else try % to give a DWIM warning. Otherwise fail. C will print an error % message. :- public '$undefined_procedure'/4. '$undefined_procedure'(Module, Name, Arity, Action) :- '$prefix_module'(Module, user, Name/Arity, Pred), user:exception(undefined_predicate, Pred, Action0), !, Action = Action0. '$undefined_procedure'(Module, Name, Arity, Action) :- \+ current_prolog_flag(autoload, false), '$autoload'(Module:Name/Arity), !, Action = retry. '$undefined_procedure'(_, _, _, error). %! '$loading'(+Library) % % True if the library is being loaded. Just testing that the % predicate is defined is not good enough as the file may be % partly loaded. Calling use_module/2 at any time has two % drawbacks: it queries the filesystem, causing slowdown and it % stops libraries being autoloaded from a saved state where the % library is already loaded, but the source may not be accessible. '$loading'(Library) :- current_prolog_flag(threads, true), ( '$loading_file'(Library, _Queue, _LoadThread) -> true ; '$loading_file'(FullFile, _Queue, _LoadThread), file_name_extension(Library, _, FullFile) -> true ). % handle debugger 'w', 'p' and depth options. '$set_debugger_write_options'(write) :- !, create_prolog_flag(debugger_write_options, [ quoted(true), attributes(dots), spacing(next_argument) ], []). '$set_debugger_write_options'(print) :- !, create_prolog_flag(debugger_write_options, [ quoted(true), portray(true), max_depth(10), attributes(portray), spacing(next_argument) ], []). '$set_debugger_write_options'(Depth) :- current_prolog_flag(debugger_write_options, Options0), ( '$select'(max_depth(_), Options0, Options) -> true ; Options = Options0 ), create_prolog_flag(debugger_write_options, [max_depth(Depth)|Options], []). /******************************** * SYSTEM MESSAGES * *********************************/ %! '$confirm'(Spec) is semidet. % % Ask the user to confirm a question. Spec is a term as used for % print_message/2. It is printed the the `query` channel. This % predicate may be hooked using prolog:confirm/2, which must return % a boolean. :- multifile prolog:confirm/2. '$confirm'(Spec) :- prolog:confirm(Spec, Result), !, Result == true. '$confirm'(Spec) :- print_message(query, Spec), between(0, 5, _), get_single_char(Answer), ( '$in_reply'(Answer, 'yYjJ \n') -> !, print_message(query, if_tty([yes-[]])) ; '$in_reply'(Answer, 'nN') -> !, print_message(query, if_tty([no-[]])), fail ; print_message(help, query(confirm)), fail ). '$in_reply'(Code, Atom) :- char_code(Char, Code), sub_atom(Atom, _, _, _, Char), !. :- dynamic user:portray/1. :- multifile user:portray/1. :- '$notransact'(user:portray/1). /******************************* * FILE_SEARCH_PATH * *******************************/ :- dynamic user:file_search_path/2, user:library_directory/1. :- multifile user:file_search_path/2, user:library_directory/1. :- '$notransact'((user:file_search_path/2, user:library_directory/1)). user:(file_search_path(library, Dir) :- library_directory(Dir)). user:file_search_path(swi, Home) :- current_prolog_flag(home, Home). user:file_search_path(swi, Home) :- current_prolog_flag(shared_home, Home). user:file_search_path(library, app_config(lib)). user:file_search_path(library, swi(library)). user:file_search_path(library, swi(library/clp)). user:file_search_path(library, Dir) :- '$ext_library_directory'(Dir). user:file_search_path(path, Dir) :- getenv('PATH', Path), current_prolog_flag(path_sep, Sep), atomic_list_concat(Dirs, Sep, Path), '$member'(Dir, Dirs). user:file_search_path(user_app_data, Dir) :- '$xdg_prolog_directory'(data, Dir). user:file_search_path(common_app_data, Dir) :- '$xdg_prolog_directory'(common_data, Dir). user:file_search_path(user_app_config, Dir) :- '$xdg_prolog_directory'(config, Dir). user:file_search_path(common_app_config, Dir) :- '$xdg_prolog_directory'(common_config, Dir). user:file_search_path(app_data, user_app_data('.')). user:file_search_path(app_data, common_app_data('.')). user:file_search_path(app_config, user_app_config('.')). user:file_search_path(app_config, common_app_config('.')). % backward compatibility user:file_search_path(app_preferences, user_app_config('.')). user:file_search_path(user_profile, app_preferences('.')). user:file_search_path(app, swi(app)). user:file_search_path(app, app_data(app)). user:file_search_path(working_directory, CWD) :- working_directory(CWD, CWD). '$xdg_prolog_directory'(Which, Dir) :- '$xdg_directory'(Which, XDGDir), '$make_config_dir'(XDGDir), '$ensure_slash'(XDGDir, XDGDirS), atom_concat(XDGDirS, 'swi-prolog', Dir), '$make_config_dir'(Dir). '$xdg_directory'(Which, Dir) :- '$xdg_directory_search'(Where), '$xdg_directory'(Which, Where, Dir). '$xdg_directory_search'(xdg) :- current_prolog_flag(xdg, true), !. '$xdg_directory_search'(Where) :- current_prolog_flag(windows, true), ( current_prolog_flag(xdg, false) -> Where = windows ; '$member'(Where, [windows, xdg]) ). % config '$xdg_directory'(config, windows, Home) :- catch(win_folder(appdata, Home), _, fail). '$xdg_directory'(config, xdg, Home) :- getenv('XDG_CONFIG_HOME', Home). '$xdg_directory'(config, xdg, Home) :- expand_file_name('~/.config', [Home]). % data '$xdg_directory'(data, windows, Home) :- catch(win_folder(local_appdata, Home), _, fail). '$xdg_directory'(data, xdg, Home) :- getenv('XDG_DATA_HOME', Home). '$xdg_directory'(data, xdg, Home) :- expand_file_name('~/.local', [Local]), '$make_config_dir'(Local), atom_concat(Local, '/share', Home), '$make_config_dir'(Home). % common data '$xdg_directory'(common_data, windows, Dir) :- catch(win_folder(common_appdata, Dir), _, fail). '$xdg_directory'(common_data, xdg, Dir) :- '$existing_dir_from_env_path'('XDG_DATA_DIRS', [ '/usr/local/share', '/usr/share' ], Dir). % common config '$xdg_directory'(common_config, windows, Dir) :- catch(win_folder(common_appdata, Dir), _, fail). '$xdg_directory'(common_config, xdg, Dir) :- '$existing_dir_from_env_path'('XDG_CONFIG_DIRS', ['/etc/xdg'], Dir). '$existing_dir_from_env_path'(Env, Defaults, Dir) :- ( getenv(Env, Path) -> current_prolog_flag(path_sep, Sep), atomic_list_concat(Dirs, Sep, Path) ; Dirs = Defaults ), '$member'(Dir, Dirs), Dir \== '', exists_directory(Dir). '$make_config_dir'(Dir) :- exists_directory(Dir), !. '$make_config_dir'(Dir) :- nb_current('$create_search_directories', true), file_directory_name(Dir, Parent), '$my_file'(Parent), catch(make_directory(Dir), _, fail). '$ensure_slash'(Dir, DirS) :- ( sub_atom(Dir, _, _, 0, /) -> DirS = Dir ; atom_concat(Dir, /, DirS) ). :- dynamic '$ext_lib_dirs'/1. :- volatile '$ext_lib_dirs'/1. '$ext_library_directory'(Dir) :- '$ext_lib_dirs'(Dirs), !, '$member'(Dir, Dirs). '$ext_library_directory'(Dir) :- current_prolog_flag(home, Home), atom_concat(Home, '/library/ext/*', Pattern), expand_file_name(Pattern, Dirs0), '$include'(exists_directory, Dirs0, Dirs), asserta('$ext_lib_dirs'(Dirs)), '$member'(Dir, Dirs). %! '$expand_file_search_path'(+Spec, -Expanded, +Cond) is nondet. '$expand_file_search_path'(Spec, Expanded, Cond) :- '$option'(access(Access), Cond), memberchk(Access, [write,append]), !, setup_call_cleanup( nb_setval('$create_search_directories', true), expand_file_search_path(Spec, Expanded), nb_delete('$create_search_directories')). '$expand_file_search_path'(Spec, Expanded, _Cond) :- expand_file_search_path(Spec, Expanded). %! expand_file_search_path(+Spec, -Expanded) is nondet. % % Expand a search path. The system uses depth-first search upto a % specified depth. If this depth is exceeded an exception is raised. % TBD: bread-first search? expand_file_search_path(Spec, Expanded) :- catch('$expand_file_search_path'(Spec, Expanded, 0, []), loop(Used), throw(error(loop_error(Spec), file_search(Used)))). '$expand_file_search_path'(Spec, Expanded, N, Used) :- functor(Spec, Alias, 1), !, user:file_search_path(Alias, Exp0), NN is N + 1, ( NN > 16 -> throw(loop(Used)) ; true ), '$expand_file_search_path'(Exp0, Exp1, NN, [Alias=Exp0|Used]), arg(1, Spec, Segments), '$segments_to_atom'(Segments, File), '$make_path'(Exp1, File, Expanded). '$expand_file_search_path'(Spec, Path, _, _) :- '$segments_to_atom'(Spec, Path). '$make_path'(Dir, '.', Path) :- !, Path = Dir. '$make_path'(Dir, File, Path) :- sub_atom(Dir, _, _, 0, /), !, atom_concat(Dir, File, Path). '$make_path'(Dir, File, Path) :- atomic_list_concat([Dir, /, File], Path). /******************************** * FILE CHECKING * *********************************/ %! absolute_file_name(+Term, -AbsoluteFile, +Options) is nondet. % % Translate path-specifier into a full path-name. This predicate % originates from Quintus was introduced in SWI-Prolog very early % and has re-appeared in SICStus 3.9.0, where they changed % argument order and added some options. We addopted the SICStus % argument order, but still accept the original argument order for % compatibility reasons. absolute_file_name(Spec, Options, Path) :- '$is_options'(Options), \+ '$is_options'(Path), !, '$absolute_file_name'(Spec, Path, Options). absolute_file_name(Spec, Path, Options) :- '$absolute_file_name'(Spec, Path, Options). '$absolute_file_name'(Spec, Path, Options0) :- '$options_dict'(Options0, Options), % get the valid extensions ( '$select_option'(extensions(Exts), Options, Options1) -> '$must_be'(list, Exts) ; '$option'(file_type(Type), Options) -> '$must_be'(atom, Type), '$file_type_extensions'(Type, Exts), Options1 = Options ; Options1 = Options, Exts = [''] ), '$canonicalise_extensions'(Exts, Extensions), % unless specified otherwise, ask regular file ( ( nonvar(Type) ; '$option'(access(none), Options, none) ) -> Options2 = Options1 ; '$merge_options'(_{file_type:regular}, Options1, Options2) ), % Det or nondet? ( '$select_option'(solutions(Sols), Options2, Options3) -> '$must_be'(oneof(atom, solutions, [first,all]), Sols) ; Sols = first, Options3 = Options2 ), % Errors or not? ( '$select_option'(file_errors(FileErrors), Options3, Options4) -> '$must_be'(oneof(atom, file_errors, [error,fail]), FileErrors) ; FileErrors = error, Options4 = Options3 ), % Expand shell patterns? ( atomic(Spec), '$select_option'(expand(Expand), Options4, Options5), '$must_be'(boolean, Expand) -> expand_file_name(Spec, List), '$member'(Spec1, List) ; Spec1 = Spec, Options5 = Options4 ), % Search for files ( Sols == first -> ( '$chk_file'(Spec1, Extensions, Options5, true, Path) -> ! % also kill choice point of expand_file_name/2 ; ( FileErrors == fail -> fail ; '$current_module'('$bags', _File), findall(P, '$chk_file'(Spec1, Extensions, [access(exist)], false, P), Candidates), '$abs_file_error'(Spec, Candidates, Options5) ) ) ; '$chk_file'(Spec1, Extensions, Options5, false, Path) ). '$abs_file_error'(Spec, Candidates, Conditions) :- '$member'(F, Candidates), '$member'(C, Conditions), '$file_condition'(C), '$file_error'(C, Spec, F, E, Comment), !, throw(error(E, context(_, Comment))). '$abs_file_error'(Spec, _, _) :- '$existence_error'(source_sink, Spec). '$file_error'(file_type(directory), Spec, File, Error, Comment) :- \+ exists_directory(File), !, Error = existence_error(directory, Spec), Comment = not_a_directory(File). '$file_error'(file_type(_), Spec, File, Error, Comment) :- exists_directory(File), !, Error = existence_error(file, Spec), Comment = directory(File). '$file_error'(access(OneOrList), Spec, File, Error, _) :- '$one_or_member'(Access, OneOrList), \+ access_file(File, Access), Error = permission_error(Access, source_sink, Spec). '$one_or_member'(Elem, List) :- is_list(List), !, '$member'(Elem, List). '$one_or_member'(Elem, Elem). '$file_type_extensions'(source, Exts) :- % SICStus 3.9 compatibility !, '$file_type_extensions'(prolog, Exts). '$file_type_extensions'(Type, Exts) :- '$current_module'('$bags', _File), !, findall(Ext, user:prolog_file_type(Ext, Type), Exts0), ( Exts0 == [], \+ '$ft_no_ext'(Type) -> '$domain_error'(file_type, Type) ; true ), '$append'(Exts0, [''], Exts). '$file_type_extensions'(prolog, [pl, '']). % findall is not yet defined ... '$ft_no_ext'(txt). '$ft_no_ext'(executable). '$ft_no_ext'(directory). '$ft_no_ext'(regular). %! user:prolog_file_type(?Extension, ?Type) % % Define type of file based on the extension. This is used by % absolute_file_name/3 and may be used to extend the list of % extensions used for some type. % % Note that =qlf= must be last when searching for Prolog files. % Otherwise use_module/1 will consider the file as not-loaded % because the .qlf file is not the loaded file. Must be fixed % elsewhere. :- multifile(user:prolog_file_type/2). :- dynamic(user:prolog_file_type/2). user:prolog_file_type(pl, prolog). user:prolog_file_type(prolog, prolog). user:prolog_file_type(qlf, prolog). user:prolog_file_type(qlf, qlf). user:prolog_file_type(Ext, executable) :- current_prolog_flag(shared_object_extension, Ext). user:prolog_file_type(dylib, executable) :- current_prolog_flag(apple, true). %! '$chk_file'(+Spec, +Extensions, +Cond, +UseCache, -FullName) % % File is a specification of a Prolog source file. Return the full % path of the file. '$chk_file'(Spec, _Extensions, _Cond, _Cache, _FullName) :- \+ ground(Spec), !, '$instantiation_error'(Spec). '$chk_file'(Spec, Extensions, Cond, Cache, FullName) :- compound(Spec), functor(Spec, _, 1), !, '$relative_to'(Cond, cwd, CWD), '$chk_alias_file'(Spec, Extensions, Cond, Cache, CWD, FullName). '$chk_file'(Segments, Ext, Cond, Cache, FullName) :- % allow a/b/... \+ atomic(Segments), !, '$segments_to_atom'(Segments, Atom), '$chk_file'(Atom, Ext, Cond, Cache, FullName). '$chk_file'(File, Exts, Cond, _, FullName) :- % Absolute files is_absolute_file_name(File), !, '$extend_file'(File, Exts, Extended), '$file_conditions'(Cond, Extended), '$absolute_file_name'(Extended, FullName). '$chk_file'(File, Exts, Cond, _, FullName) :- % Explicit relative_to '$option'(relative_to(_), Cond), !, '$relative_to'(Cond, none, Dir), '$chk_file_relative_to'(File, Exts, Cond, Dir, FullName). '$chk_file'(File, Exts, Cond, _Cache, FullName) :- % From source source_location(ContextFile, _Line), !, ( file_directory_name(ContextFile, Dir), '$chk_file_relative_to'(File, Exts, Cond, Dir, FullName) -> true ; current_prolog_flag(source_search_working_directory, true), '$extend_file'(File, Exts, Extended), '$file_conditions'(Cond, Extended), '$absolute_file_name'(Extended, FullName), '$print_message'(warning, deprecated(source_search_working_directory( File, FullName))) ). '$chk_file'(File, Exts, Cond, _Cache, FullName) :- % Not loading source '$extend_file'(File, Exts, Extended), '$file_conditions'(Cond, Extended), '$absolute_file_name'(Extended, FullName). '$chk_file_relative_to'(File, Exts, Cond, Dir, FullName) :- atomic_list_concat([Dir, /, File], AbsFile), '$extend_file'(AbsFile, Exts, Extended), '$file_conditions'(Cond, Extended), '$absolute_file_name'(Extended, FullName). '$segments_to_atom'(Atom, Atom) :- atomic(Atom), !. '$segments_to_atom'(Segments, Atom) :- '$segments_to_list'(Segments, List, []), !, atomic_list_concat(List, /, Atom). '$segments_to_list'(A/B, H, T) :- '$segments_to_list'(A, H, T0), '$segments_to_list'(B, T0, T). '$segments_to_list'(A, [A|T], T) :- atomic(A). %! '$relative_to'(+Condition, +Default, -Dir) % % Determine the directory to work from. This can be specified % explicitely using one or more relative_to(FileOrDir) options % or implicitely relative to the working directory or current % source-file. '$relative_to'(Conditions, Default, Dir) :- ( '$option'(relative_to(FileOrDir), Conditions) *-> ( exists_directory(FileOrDir) -> Dir = FileOrDir ; atom_concat(Dir, /, FileOrDir) -> true ; file_directory_name(FileOrDir, Dir) ) ; Default == cwd -> working_directory(Dir, Dir) ; Default == source -> source_location(ContextFile, _Line), file_directory_name(ContextFile, Dir) ). %! '$chk_alias_file'(+Spec, +Exts, +Cond, +Cache, +CWD, %! -FullFile) is nondet. :- dynamic '$search_path_file_cache'/3, % SHA1, Time, Path '$search_path_gc_time'/1. % Time :- volatile '$search_path_file_cache'/3, '$search_path_gc_time'/1. :- '$notransact'(('$search_path_file_cache'/3, '$search_path_gc_time'/1)). :- create_prolog_flag(file_search_cache_time, 10, []). '$chk_alias_file'(Spec, Exts, Cond, true, CWD, FullFile) :- !, findall(Exp, '$expand_file_search_path'(Spec, Exp, Cond), Expansions), current_prolog_flag(emulated_dialect, Dialect), Cache = cache(Exts, Cond, CWD, Expansions, Dialect), variant_sha1(Spec+Cache, SHA1), get_time(Now), current_prolog_flag(file_search_cache_time, TimeOut), ( '$search_path_file_cache'(SHA1, CachedTime, FullFile), CachedTime > Now - TimeOut, '$file_conditions'(Cond, FullFile) -> '$search_message'(file_search(cache(Spec, Cond), FullFile)) ; '$member'(Expanded, Expansions), '$extend_file'(Expanded, Exts, LibFile), ( '$file_conditions'(Cond, LibFile), '$absolute_file_name'(LibFile, FullFile), '$cache_file_found'(SHA1, Now, TimeOut, FullFile) -> '$search_message'(file_search(found(Spec, Cond), FullFile)) ; '$search_message'(file_search(tried(Spec, Cond), LibFile)), fail ) ). '$chk_alias_file'(Spec, Exts, Cond, false, _CWD, FullFile) :- '$expand_file_search_path'(Spec, Expanded, Cond), '$extend_file'(Expanded, Exts, LibFile), '$file_conditions'(Cond, LibFile), '$absolute_file_name'(LibFile, FullFile). '$cache_file_found'(_, _, TimeOut, _) :- TimeOut =:= 0, !. '$cache_file_found'(SHA1, Now, TimeOut, FullFile) :- '$search_path_file_cache'(SHA1, Saved, FullFile), !, ( Now - Saved < TimeOut/2 -> true ; retractall('$search_path_file_cache'(SHA1, _, _)), asserta('$search_path_file_cache'(SHA1, Now, FullFile)) ). '$cache_file_found'(SHA1, Now, TimeOut, FullFile) :- 'gc_file_search_cache'(TimeOut), asserta('$search_path_file_cache'(SHA1, Now, FullFile)). 'gc_file_search_cache'(TimeOut) :- get_time(Now), '$search_path_gc_time'(Last), Now-Last < TimeOut/2, !. 'gc_file_search_cache'(TimeOut) :- get_time(Now), retractall('$search_path_gc_time'(_)), assertz('$search_path_gc_time'(Now)), Before is Now - TimeOut, ( '$search_path_file_cache'(SHA1, Cached, FullFile), Cached < Before, retractall('$search_path_file_cache'(SHA1, Cached, FullFile)), fail ; true ). '$search_message'(Term) :- current_prolog_flag(verbose_file_search, true), !, print_message(informational, Term). '$search_message'(_). %! '$file_conditions'(+Condition, +Path) % % Verify Path satisfies Condition. '$file_conditions'(List, File) :- is_list(List), !, \+ ( '$member'(C, List), '$file_condition'(C), \+ '$file_condition'(C, File) ). '$file_conditions'(Map, File) :- \+ ( get_dict(Key, Map, Value), C =.. [Key,Value], '$file_condition'(C), \+ '$file_condition'(C, File) ). '$file_condition'(file_type(directory), File) :- !, exists_directory(File). '$file_condition'(file_type(_), File) :- !, \+ exists_directory(File). '$file_condition'(access(Accesses), File) :- !, \+ ( '$one_or_member'(Access, Accesses), \+ access_file(File, Access) ). '$file_condition'(exists). '$file_condition'(file_type(_)). '$file_condition'(access(_)). '$extend_file'(File, Exts, FileEx) :- '$ensure_extensions'(Exts, File, Fs), '$list_to_set'(Fs, FsSet), '$member'(FileEx, FsSet). '$ensure_extensions'([], _, []). '$ensure_extensions'([E|E0], F, [FE|E1]) :- file_name_extension(F, E, FE), '$ensure_extensions'(E0, F, E1). %! '$list_to_set'(+List, -Set) is det. % % Turn list into a set, keeping the left-most copy of duplicate % elements. Copied from library(lists). '$list_to_set'(List, Set) :- '$number_list'(List, 1, Numbered), sort(1, @=<, Numbered, ONum), '$remove_dup_keys'(ONum, NumSet), sort(2, @=<, NumSet, ONumSet), '$pairs_keys'(ONumSet, Set). '$number_list'([], _, []). '$number_list'([H|T0], N, [H-N|T]) :- N1 is N+1, '$number_list'(T0, N1, T). '$remove_dup_keys'([], []). '$remove_dup_keys'([H|T0], [H|T]) :- H = V-_, '$remove_same_key'(T0, V, T1), '$remove_dup_keys'(T1, T). '$remove_same_key'([V1-_|T0], V, T) :- V1 == V, !, '$remove_same_key'(T0, V, T). '$remove_same_key'(L, _, L). '$pairs_keys'([], []). '$pairs_keys'([K-_|T0], [K|T]) :- '$pairs_keys'(T0, T). '$pairs_values'([], []). '$pairs_values'([_-V|T0], [V|T]) :- '$pairs_values'(T0, T). /* - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - Canonicalise the extension list. Old SWI-Prolog require `.pl', etc, which the Quintus compatibility requests `pl'. This layer canonicalises all extensions to .ext - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - */ '$canonicalise_extensions'([], []) :- !. '$canonicalise_extensions'([H|T], [CH|CT]) :- !, '$must_be'(atom, H), '$canonicalise_extension'(H, CH), '$canonicalise_extensions'(T, CT). '$canonicalise_extensions'(E, [CE]) :- '$canonicalise_extension'(E, CE). '$canonicalise_extension'('', '') :- !. '$canonicalise_extension'(DotAtom, DotAtom) :- sub_atom(DotAtom, 0, _, _, '.'), !. '$canonicalise_extension'(Atom, DotAtom) :- atom_concat('.', Atom, DotAtom). /******************************** * CONSULT * *********************************/ :- dynamic user:library_directory/1, user:prolog_load_file/2. :- multifile user:library_directory/1, user:prolog_load_file/2. :- prompt(_, '|: '). :- thread_local '$compilation_mode_store'/1, % database, wic, qlf '$directive_mode_store'/1. % database, wic, qlf :- volatile '$compilation_mode_store'/1, '$directive_mode_store'/1. :- '$notransact'(('$compilation_mode_store'/1, '$directive_mode_store'/1)). '$compilation_mode'(Mode) :- ( '$compilation_mode_store'(Val) -> Mode = Val ; Mode = database ). '$set_compilation_mode'(Mode) :- retractall('$compilation_mode_store'(_)), assertz('$compilation_mode_store'(Mode)). '$compilation_mode'(Old, New) :- '$compilation_mode'(Old), ( New == Old -> true ; '$set_compilation_mode'(New) ). '$directive_mode'(Mode) :- ( '$directive_mode_store'(Val) -> Mode = Val ; Mode = database ). '$directive_mode'(Old, New) :- '$directive_mode'(Old), ( New == Old -> true ; '$set_directive_mode'(New) ). '$set_directive_mode'(Mode) :- retractall('$directive_mode_store'(_)), assertz('$directive_mode_store'(Mode)). %! '$compilation_level'(-Level) is det. % % True when Level reflects the nesting in files compiling other % files. 0 if no files are being loaded. '$compilation_level'(Level) :- '$input_context'(Stack), '$compilation_level'(Stack, Level). '$compilation_level'([], 0). '$compilation_level'([Input|T], Level) :- ( arg(1, Input, see) -> '$compilation_level'(T, Level) ; '$compilation_level'(T, Level0), Level is Level0+1 ). %! compiling % % Is true if SWI-Prolog is generating a state or qlf file or % executes a `call' directive while doing this. compiling :- \+ ( '$compilation_mode'(database), '$directive_mode'(database) ). :- meta_predicate '$ifcompiling'(0). '$ifcompiling'(G) :- ( '$compilation_mode'(database) -> true ; call(G) ). /******************************** * READ SOURCE * *********************************/ %! '$load_msg_level'(+Action, +NestingLevel, -StartVerbose, -EndVerbose) '$load_msg_level'(Action, Nesting, Start, Done) :- '$update_autoload_level'([], 0), !, current_prolog_flag(verbose_load, Type0), '$load_msg_compat'(Type0, Type), ( '$load_msg_level'(Action, Nesting, Type, Start, Done) -> true ). '$load_msg_level'(_, _, silent, silent). '$load_msg_compat'(true, normal) :- !. '$load_msg_compat'(false, silent) :- !. '$load_msg_compat'(X, X). '$load_msg_level'(load_file, _, full, informational, informational). '$load_msg_level'(include_file, _, full, informational, informational). '$load_msg_level'(load_file, _, normal, silent, informational). '$load_msg_level'(include_file, _, normal, silent, silent). '$load_msg_level'(load_file, 0, brief, silent, informational). '$load_msg_level'(load_file, _, brief, silent, silent). '$load_msg_level'(include_file, _, brief, silent, silent). '$load_msg_level'(load_file, _, silent, silent, silent). '$load_msg_level'(include_file, _, silent, silent, silent). %! '$source_term'(+From, -Read, -RLayout, -Term, -TLayout, %! -Stream, +Options) is nondet. % % Read Prolog terms from the input From. Terms are returned on % backtracking. Associated resources (i.e., streams) are closed % due to setup_call_cleanup/3. % % @param From is either a term stream(Id, Stream) or a file % specification. % @param Read is the raw term as read from the input. % @param Term is the term after term-expansion. If a term is % expanded into the empty list, this is returned too. This % is required to be able to return the raw term in Read % @param Stream is the stream from which Read is read % @param Options provides additional options: % * encoding(Enc) % Encoding used to open From % * syntax_errors(+ErrorMode) % * process_comments(+Boolean) % * term_position(-Pos) '$source_term'(From, Read, RLayout, Term, TLayout, Stream, Options) :- '$source_term'(From, Read, RLayout, Term, TLayout, Stream, [], Options), ( Term == end_of_file -> !, fail ; Term \== begin_of_file ). '$source_term'(Input, _,_,_,_,_,_,_) :- \+ ground(Input), !, '$instantiation_error'(Input). '$source_term'(stream(Id, In, Opts), Read, RLayout, Term, TLayout, Stream, Parents, Options) :- !, '$record_included'(Parents, Id, Id, 0.0, Message), setup_call_cleanup( '$open_source'(stream(Id, In, Opts), In, State, Parents, Options), '$term_in_file'(In, Read, RLayout, Term, TLayout, Stream, [Id|Parents], Options), '$close_source'(State, Message)). '$source_term'(File, Read, RLayout, Term, TLayout, Stream, Parents, Options) :- absolute_file_name(File, Path, [ file_type(prolog), access(read) ]), time_file(Path, Time), '$record_included'(Parents, File, Path, Time, Message), setup_call_cleanup( '$open_source'(Path, In, State, Parents, Options), '$term_in_file'(In, Read, RLayout, Term, TLayout, Stream, [Path|Parents], Options), '$close_source'(State, Message)). :- thread_local '$load_input'/2. :- volatile '$load_input'/2. :- '$notransact'('$load_input'/2). '$open_source'(stream(Id, In, Opts), In, restore(In, StreamState, Id, Ref, Opts), Parents, _Options) :- !, '$context_type'(Parents, ContextType), '$push_input_context'(ContextType), '$prepare_load_stream'(In, Id, StreamState), asserta('$load_input'(stream(Id), In), Ref). '$open_source'(Path, In, close(In, Path, Ref), Parents, Options) :- '$context_type'(Parents, ContextType), '$push_input_context'(ContextType), '$open_source'(Path, In, Options), '$set_encoding'(In, Options), asserta('$load_input'(Path, In), Ref). '$context_type'([], load_file) :- !. '$context_type'(_, include). :- multifile prolog:open_source_hook/3. '$open_source'(Path, In, Options) :- prolog:open_source_hook(Path, In, Options), !. '$open_source'(Path, In, _Options) :- open(Path, read, In). '$close_source'(close(In, _Id, Ref), Message) :- erase(Ref), call_cleanup( close(In), '$pop_input_context'), '$close_message'(Message). '$close_source'(restore(In, StreamState, _Id, Ref, Opts), Message) :- erase(Ref), call_cleanup( '$restore_load_stream'(In, StreamState, Opts), '$pop_input_context'), '$close_message'(Message). '$close_message'(message(Level, Msg)) :- !, '$print_message'(Level, Msg). '$close_message'(_). %! '$term_in_file'(+In, -Read, -RLayout, -Term, -TLayout, %! -Stream, +Parents, +Options) is multi. % % True when Term is an expanded term from In. Read is a raw term % (before term-expansion). Stream is the actual stream, which % starts at In, but may change due to processing included files. % % @see '$source_term'/8 for details. '$term_in_file'(In, Read, RLayout, Term, TLayout, Stream, Parents, Options) :- Parents \= [_,_|_], ( '$load_input'(_, Input) -> stream_property(Input, file_name(File)) ), '$set_source_location'(File, 0), '$expanded_term'(In, begin_of_file, 0-0, Read, RLayout, Term, TLayout, Stream, Parents, Options). '$term_in_file'(In, Read, RLayout, Term, TLayout, Stream, Parents, Options) :- '$skip_script_line'(In, Options), '$read_clause_options'(Options, ReadOptions), '$repeat_and_read_error_mode'(ErrorMode), read_clause(In, Raw, [ syntax_errors(ErrorMode), variable_names(Bindings), term_position(Pos), subterm_positions(RawLayout) | ReadOptions ]), b_setval('$term_position', Pos), b_setval('$variable_names', Bindings), ( Raw == end_of_file -> !, ( Parents = [_,_|_] % Included file -> fail ; '$expanded_term'(In, Raw, RawLayout, Read, RLayout, Term, TLayout, Stream, Parents, Options) ) ; '$expanded_term'(In, Raw, RawLayout, Read, RLayout, Term, TLayout, Stream, Parents, Options) ). '$read_clause_options'([], []). '$read_clause_options'([H|T0], List) :- ( '$read_clause_option'(H) -> List = [H|T] ; List = T ), '$read_clause_options'(T0, T). '$read_clause_option'(syntax_errors(_)). '$read_clause_option'(term_position(_)). '$read_clause_option'(process_comment(_)). %! '$repeat_and_read_error_mode'(-Mode) is multi. % % Calls repeat/1 and return the error mode. The implemenation is like % this because during part of the boot cycle expand.pl is not yet % loaded. '$repeat_and_read_error_mode'(Mode) :- ( current_predicate('$including'/0) -> repeat, ( '$including' -> Mode = dec10 ; Mode = quiet ) ; Mode = dec10, repeat ). '$expanded_term'(In, Raw, RawLayout, Read, RLayout, Term, TLayout, Stream, Parents, Options) :- E = error(_,_), catch('$expand_term'(Raw, RawLayout, Expanded, ExpandedLayout), E, '$print_message_fail'(E)), ( Expanded \== [] -> '$expansion_member'(Expanded, ExpandedLayout, Term1, Layout1) ; Term1 = Expanded, Layout1 = ExpandedLayout ), ( nonvar(Term1), Term1 = (:-Directive), nonvar(Directive) -> ( Directive = include(File), '$current_source_module'(Module), '$valid_directive'(Module:include(File)) -> stream_property(In, encoding(Enc)), '$add_encoding'(Enc, Options, Options1), '$source_term'(File, Read, RLayout, Term, TLayout, Stream, Parents, Options1) ; Directive = encoding(Enc) -> set_stream(In, encoding(Enc)), fail ; Term = Term1, Stream = In, Read = Raw ) ; Term = Term1, TLayout = Layout1, Stream = In, Read = Raw, RLayout = RawLayout ). '$expansion_member'(Var, Layout, Var, Layout) :- var(Var), !. '$expansion_member'([], _, _, _) :- !, fail. '$expansion_member'(List, ListLayout, Term, Layout) :- is_list(List), !, ( var(ListLayout) -> '$member'(Term, List) ; is_list(ListLayout) -> '$member_rep2'(Term, Layout, List, ListLayout) ; Layout = ListLayout, '$member'(Term, List) ). '$expansion_member'(X, Layout, X, Layout). % pairwise member, repeating last element of the second % list. '$member_rep2'(H1, H2, [H1|_], [H2|_]). '$member_rep2'(H1, H2, [_|T1], [T2]) :- !, '$member_rep2'(H1, H2, T1, [T2]). '$member_rep2'(H1, H2, [_|T1], [_|T2]) :- '$member_rep2'(H1, H2, T1, T2). %! '$add_encoding'(+Enc, +Options0, -Options) '$add_encoding'(Enc, Options0, Options) :- ( Options0 = [encoding(Enc)|_] -> Options = Options0 ; Options = [encoding(Enc)|Options0] ). :- multifile '$included'/4. % Into, Line, File, LastModified :- dynamic '$included'/4. %! '$record_included'(+Parents, +File, +Path, +Time, -Message) is det. % % Record that we included File into the head of Parents. This is % troublesome when creating a QLF file because this may happen % before we opened the QLF file (and we do not yet know how to % open the file because we do not yet know whether this is a % module file or not). % % I think that the only sensible solution is to have a special % statement for this, that may appear both inside and outside QLF % `parts'. '$record_included'([Parent|Parents], File, Path, Time, message(DoneMsgLevel, include_file(done(Level, file(File, Path))))) :- source_location(SrcFile, Line), !, '$compilation_level'(Level), '$load_msg_level'(include_file, Level, StartMsgLevel, DoneMsgLevel), '$print_message'(StartMsgLevel, include_file(start(Level, file(File, Path)))), '$last'([Parent|Parents], Owner), ( ( '$compilation_mode'(database) ; '$qlf_current_source'(Owner) ) -> '$store_admin_clause'( system:'$included'(Parent, Line, Path, Time), _, Owner, SrcFile:Line) ; '$qlf_include'(Owner, Parent, Line, Path, Time) ). '$record_included'(_, _, _, _, true). %! '$master_file'(+File, -MasterFile) % % Find the primary load file from included files. '$master_file'(File, MasterFile) :- '$included'(MasterFile0, _Line, File, _Time), !, '$master_file'(MasterFile0, MasterFile). '$master_file'(File, File). '$skip_script_line'(_In, Options) :- '$option'(check_script(false), Options), !. '$skip_script_line'(In, _Options) :- ( peek_char(In, #) -> skip(In, 10) ; true ). '$set_encoding'(Stream, Options) :- '$option'(encoding(Enc), Options), !, Enc \== default, set_stream(Stream, encoding(Enc)). '$set_encoding'(_, _). '$prepare_load_stream'(In, Id, state(HasName,HasPos)) :- ( stream_property(In, file_name(_)) -> HasName = true, ( stream_property(In, position(_)) -> HasPos = true ; HasPos = false, set_stream(In, record_position(true)) ) ; HasName = false, set_stream(In, file_name(Id)), ( stream_property(In, position(_)) -> HasPos = true ; HasPos = false, set_stream(In, record_position(true)) ) ). '$restore_load_stream'(In, _State, Options) :- memberchk(close(true), Options), !, close(In). '$restore_load_stream'(In, state(HasName, HasPos), _Options) :- ( HasName == false -> set_stream(In, file_name('')) ; true ), ( HasPos == false -> set_stream(In, record_position(false)) ; true ). /******************************* * DERIVED FILES * *******************************/ :- dynamic '$derived_source_db'/3. % Loaded, DerivedFrom, Time '$register_derived_source'(_, '-') :- !. '$register_derived_source'(Loaded, DerivedFrom) :- retractall('$derived_source_db'(Loaded, _, _)), time_file(DerivedFrom, Time), assert('$derived_source_db'(Loaded, DerivedFrom, Time)). % Auto-importing dynamic predicates is not very elegant and % leads to problems with qsave_program/[1,2] '$derived_source'(Loaded, DerivedFrom, Time) :- '$derived_source_db'(Loaded, DerivedFrom, Time). /******************************** * LOAD PREDICATES * *********************************/ :- meta_predicate ensure_loaded(:), [:|+], consult(:), use_module(:), use_module(:, +), reexport(:), reexport(:, +), load_files(:), load_files(:, +). %! ensure_loaded(+FileOrListOfFiles) % % Load specified files, provided they where not loaded before. If the % file is a module file import the public predicates into the context % module. ensure_loaded(Files) :- load_files(Files, [if(not_loaded)]). %! use_module(+FileOrListOfFiles) % % Very similar to ensure_loaded/1, but insists on the loaded file to % be a module file. If the file is already imported, but the public % predicates are not yet imported into the context module, then do % so. use_module(Files) :- load_files(Files, [ if(not_loaded), must_be_module(true) ]). %! use_module(+File, +ImportList) % % As use_module/1, but takes only one file argument and imports only % the specified predicates rather than all public predicates. use_module(File, Import) :- load_files(File, [ if(not_loaded), must_be_module(true), imports(Import) ]). %! reexport(+Files) % % As use_module/1, exporting all imported predicates. reexport(Files) :- load_files(Files, [ if(not_loaded), must_be_module(true), reexport(true) ]). %! reexport(+File, +ImportList) % % As use_module/1, re-exporting all imported predicates. reexport(File, Import) :- load_files(File, [ if(not_loaded), must_be_module(true), imports(Import), reexport(true) ]). [X] :- !, consult(X). [M:F|R] :- consult(M:[F|R]). consult(M:X) :- X == user, !, flag('$user_consult', N, N+1), NN is N + 1, atom_concat('user://', NN, Id), load_files(M:Id, [stream(user_input), check_script(false), silent(false)]). consult(List) :- load_files(List, [expand(true)]). %! load_files(:File, +Options) % % Common entry for all the consult derivates. File is the raw user % specified file specification, possibly tagged with the module. load_files(Files) :- load_files(Files, []). load_files(Module:Files, Options) :- '$must_be'(list, Options), '$load_files'(Files, Module, Options). '$load_files'(X, _, _) :- var(X), !, '$instantiation_error'(X). '$load_files'([], _, _) :- !. '$load_files'(Id, Module, Options) :- % load_files(foo, [stream(In)]) '$option'(stream(_), Options), !, ( atom(Id) -> '$load_file'(Id, Module, Options) ; throw(error(type_error(atom, Id), _)) ). '$load_files'(List, Module, Options) :- List = [_|_], !, '$must_be'(list, List), '$load_file_list'(List, Module, Options). '$load_files'(File, Module, Options) :- '$load_one_file'(File, Module, Options). '$load_file_list'([], _, _). '$load_file_list'([File|Rest], Module, Options) :- E = error(_,_), catch('$load_one_file'(File, Module, Options), E, '$print_message'(error, E)), '$load_file_list'(Rest, Module, Options). '$load_one_file'(Spec, Module, Options) :- atomic(Spec), '$option'(expand(Expand), Options, false), Expand == true, !, expand_file_name(Spec, Expanded), ( Expanded = [Load] -> true ; Load = Expanded ), '$load_files'(Load, Module, [expand(false)|Options]). '$load_one_file'(File, Module, Options) :- strip_module(Module:File, Into, PlainFile), '$load_file'(PlainFile, Into, Options). %! '$noload'(+Condition, +FullFile, +Options) is semidet. % % True of FullFile should _not_ be loaded. '$noload'(true, _, _) :- !, fail. '$noload'(_, FullFile, _Options) :- '$time_source_file'(FullFile, Time, system), float(Time), !. '$noload'(not_loaded, FullFile, _) :- source_file(FullFile), !. '$noload'(changed, Derived, _) :- '$derived_source'(_FullFile, Derived, LoadTime), time_file(Derived, Modified), Modified @=< LoadTime, !. '$noload'(changed, FullFile, Options) :- '$time_source_file'(FullFile, LoadTime, user), '$modified_id'(FullFile, Modified, Options), Modified @=< LoadTime, !. '$noload'(exists, File, Options) :- '$noload'(changed, File, Options). %! '$qlf_file'(+Spec, +PlFile, -LoadFile, -Mode, +Options) is det. % % Determine how to load the source. LoadFile is the file to be loaded, % Mode is how to load it. Mode is one of % % - compile % Normal source compilation % - qcompile % Compile from source, creating a QLF file in the process % - qload % Load from QLF file. % - stream % Load from a stream. Content can be a source or QLF file. % % @arg Spec is the original search specification % @arg PlFile is the resolved absolute path to the Prolog file. '$qlf_file'(Spec, _, Spec, stream, Options) :- '$option'(stream(_), Options), % stream: no choice !. '$qlf_file'(Spec, FullFile, FullFile, compile, _) :- '$spec_extension'(Spec, Ext), % user explicitly specified user:prolog_file_type(Ext, prolog), !. '$qlf_file'(Spec, FullFile, LoadFile, Mode, Options) :- '$compilation_mode'(database), file_name_extension(Base, PlExt, FullFile), user:prolog_file_type(PlExt, prolog), user:prolog_file_type(QlfExt, qlf), file_name_extension(Base, QlfExt, QlfFile), ( access_file(QlfFile, read), ( '$qlf_out_of_date'(FullFile, QlfFile, Why) -> ( access_file(QlfFile, write) -> print_message(informational, qlf(recompile(Spec, FullFile, QlfFile, Why))), Mode = qcompile, LoadFile = FullFile ; Why == old, ( current_prolog_flag(home, PlHome), sub_atom(FullFile, 0, _, _, PlHome) ; sub_atom(QlfFile, 0, _, _, 'res://') ) -> print_message(silent, qlf(system_lib_out_of_date(Spec, QlfFile))), Mode = qload, LoadFile = QlfFile ; print_message(warning, qlf(can_not_recompile(Spec, QlfFile, Why))), Mode = compile, LoadFile = FullFile ) ; Mode = qload, LoadFile = QlfFile ) -> ! ; '$qlf_auto'(FullFile, QlfFile, Options) -> !, Mode = qcompile, LoadFile = FullFile ). '$qlf_file'(_, FullFile, FullFile, compile, _). %! '$qlf_out_of_date'(+PlFile, +QlfFile, -Why) is semidet. % % True if the QlfFile file is out-of-date because of Why. This % predicate is the negation such that we can return the reason. '$qlf_out_of_date'(PlFile, QlfFile, Why) :- ( access_file(PlFile, read) -> time_file(PlFile, PlTime), time_file(QlfFile, QlfTime), ( PlTime > QlfTime -> Why = old % PlFile is newer ; Error = error(Formal,_), catch('$qlf_is_compatible'(QlfFile), Error, true), nonvar(Formal) % QlfFile is incompatible -> Why = Error ; fail % QlfFile is up-to-date and ok ) ; fail % can not read .pl; try .qlf ). %! '$qlf_auto'(+PlFile, +QlfFile, +Options) is semidet. % % True if we create QlfFile using qcompile/2. This is determined % by the option qcompile(QlfMode) or, if this is not present, by % the prolog_flag qcompile. :- create_prolog_flag(qcompile, false, [type(atom)]). '$qlf_auto'(PlFile, QlfFile, Options) :- ( memberchk(qcompile(QlfMode), Options) -> true ; current_prolog_flag(qcompile, QlfMode), \+ '$in_system_dir'(PlFile) ), ( QlfMode == auto -> true ; QlfMode == large, size_file(PlFile, Size), Size > 100000 ), access_file(QlfFile, write). '$in_system_dir'(PlFile) :- current_prolog_flag(home, Home), sub_atom(PlFile, 0, _, _, Home). '$spec_extension'(File, Ext) :- atom(File), file_name_extension(_, Ext, File). '$spec_extension'(Spec, Ext) :- compound(Spec), arg(1, Spec, Arg), '$spec_extension'(Arg, Ext). %! '$load_file'(+Spec, +ContextModule, +Options) is det. % % Load the file Spec into ContextModule controlled by Options. % This wrapper deals with two cases before proceeding to the real % loader: % % * User hooks based on prolog_load_file/2 % * The file is already loaded. :- dynamic '$resolved_source_path_db'/3. % ?Spec, ?Dialect, ?Path :- '$notransact'('$resolved_source_path_db'/3). '$load_file'(File, Module, Options) :- '$error_count'(E0, W0), '$load_file_e'(File, Module, Options), '$error_count'(E1, W1), Errors is E1-E0, Warnings is W1-W0, ( Errors+Warnings =:= 0 -> true ; '$print_message'(silent, load_file_errors(File, Errors, Warnings)) ). :- if(current_prolog_flag(threads, true)). '$error_count'(Errors, Warnings) :- current_prolog_flag(threads, true), !, thread_self(Me), thread_statistics(Me, errors, Errors), thread_statistics(Me, warnings, Warnings). :- endif. '$error_count'(Errors, Warnings) :- statistics(errors, Errors), statistics(warnings, Warnings). '$load_file_e'(File, Module, Options) :- \+ memberchk(stream(_), Options), user:prolog_load_file(Module:File, Options), !. '$load_file_e'(File, Module, Options) :- memberchk(stream(_), Options), !, '$assert_load_context_module'(File, Module, Options), '$qdo_load_file'(File, File, Module, Options). '$load_file_e'(File, Module, Options) :- ( '$resolved_source_path'(File, FullFile, Options) -> true ; '$resolve_source_path'(File, FullFile, Options) ), !, '$mt_load_file'(File, FullFile, Module, Options). '$load_file_e'(_, _, _). %! '$resolved_source_path'(+File, -FullFile, +Options) is semidet. % % True when File has already been resolved to an absolute path. '$resolved_source_path'(File, FullFile, Options) :- current_prolog_flag(emulated_dialect, Dialect), '$resolved_source_path_db'(File, Dialect, FullFile), ( '$source_file_property'(FullFile, from_state, true) ; '$source_file_property'(FullFile, resource, true) ; '$option'(if(If), Options, true), '$noload'(If, FullFile, Options) ), !. %! '$resolve_source_path'(+File, -FullFile, +Options) is semidet. % % Resolve a source file specification to an absolute path. May throw % existence and other errors. '$resolve_source_path'(File, FullFile, Options) :- ( '$option'(if(If), Options), If == exists -> Extra = [file_errors(fail)] ; Extra = [] ), absolute_file_name(File, FullFile, [ file_type(prolog), access(read) | Extra ]), '$register_resolved_source_path'(File, FullFile). '$register_resolved_source_path'(File, FullFile) :- ( compound(File) -> current_prolog_flag(emulated_dialect, Dialect), ( '$resolved_source_path_db'(File, Dialect, FullFile) -> true ; asserta('$resolved_source_path_db'(File, Dialect, FullFile)) ) ; true ). %! '$translated_source'(+Old, +New) is det. % % Called from loading a QLF state when source files are being renamed. :- public '$translated_source'/2. '$translated_source'(Old, New) :- forall(retract('$resolved_source_path_db'(File, Dialect, Old)), assertz('$resolved_source_path_db'(File, Dialect, New))). %! '$register_resource_file'(+FullFile) is det. % % If we load a file from a resource we lock it, so we never have to % check the modification again. '$register_resource_file'(FullFile) :- ( sub_atom(FullFile, 0, _, _, 'res://'), \+ file_name_extension(_, qlf, FullFile) -> '$set_source_file'(FullFile, resource, true) ; true ). %! '$already_loaded'(+File, +FullFile, +Module, +Options) is det. % % Called if File is already loaded. If this is a module-file, the % module must be imported into the context Module. If it is not a % module file, it must be reloaded. % % @bug A file may be associated with multiple modules. How % do we find the `main export module'? Currently there % is no good way to find out which module is associated % to the file as a result of the first :- module/2 term. '$already_loaded'(_File, FullFile, Module, Options) :- '$assert_load_context_module'(FullFile, Module, Options), '$current_module'(LoadModules, FullFile), !, ( atom(LoadModules) -> LoadModule = LoadModules ; LoadModules = [LoadModule|_] ), '$import_from_loaded_module'(LoadModule, Module, Options). '$already_loaded'(_, _, user, _) :- !. '$already_loaded'(File, FullFile, Module, Options) :- ( '$load_context_module'(FullFile, Module, CtxOptions), '$load_ctx_options'(Options, CtxOptions) -> true ; '$load_file'(File, Module, [if(true)|Options]) ). %! '$mt_load_file'(+File, +FullFile, +Module, +Options) is det. % % Deal with multi-threaded loading of files. The thread that % wishes to load the thread first will do so, while other threads % will wait until the leader finished and than act as if the file % is already loaded. % % Synchronisation is handled using a message queue that exists % while the file is being loaded. This synchronisation relies on % the fact that thread_get_message/1 throws an existence_error if % the message queue is destroyed. This is hacky. Events or % condition variables would have made a cleaner design. :- dynamic '$loading_file'/3. % File, Queue, Thread :- volatile '$loading_file'/3. :- '$notransact'('$loading_file'/3). :- if(current_prolog_flag(threads, true)). '$mt_load_file'(File, FullFile, Module, Options) :- current_prolog_flag(threads, true), !, sig_atomic(setup_call_cleanup( with_mutex('$load_file', '$mt_start_load'(FullFile, Loading, Options)), '$mt_do_load'(Loading, File, FullFile, Module, Options), '$mt_end_load'(Loading))). :- endif. '$mt_load_file'(File, FullFile, Module, Options) :- '$option'(if(If), Options, true), '$noload'(If, FullFile, Options), !, '$already_loaded'(File, FullFile, Module, Options). :- if(current_prolog_flag(threads, true)). '$mt_load_file'(File, FullFile, Module, Options) :- sig_atomic('$qdo_load_file'(File, FullFile, Module, Options)). :- else. '$mt_load_file'(File, FullFile, Module, Options) :- '$qdo_load_file'(File, FullFile, Module, Options). :- endif. :- if(current_prolog_flag(threads, true)). '$mt_start_load'(FullFile, queue(Queue), _) :- '$loading_file'(FullFile, Queue, LoadThread), \+ thread_self(LoadThread), !. '$mt_start_load'(FullFile, already_loaded, Options) :- '$option'(if(If), Options, true), '$noload'(If, FullFile, Options), !. '$mt_start_load'(FullFile, Ref, _) :- thread_self(Me), message_queue_create(Queue), assertz('$loading_file'(FullFile, Queue, Me), Ref). '$mt_do_load'(queue(Queue), File, FullFile, Module, Options) :- !, catch(thread_get_message(Queue, _), error(_,_), true), '$already_loaded'(File, FullFile, Module, Options). '$mt_do_load'(already_loaded, File, FullFile, Module, Options) :- !, '$already_loaded'(File, FullFile, Module, Options). '$mt_do_load'(_Ref, File, FullFile, Module, Options) :- '$assert_load_context_module'(FullFile, Module, Options), '$qdo_load_file'(File, FullFile, Module, Options). '$mt_end_load'(queue(_)) :- !. '$mt_end_load'(already_loaded) :- !. '$mt_end_load'(Ref) :- clause('$loading_file'(_, Queue, _), _, Ref), erase(Ref), thread_send_message(Queue, done), message_queue_destroy(Queue). :- endif. %! '$qdo_load_file'(+Spec, +FullFile, +ContextModule, +Options) is det. % % Switch to qcompile mode if requested by the option '$qlf'(+Out) '$qdo_load_file'(File, FullFile, Module, Options) :- '$qdo_load_file2'(File, FullFile, Module, Action, Options), '$register_resource_file'(FullFile), '$run_initialization'(FullFile, Action, Options). '$qdo_load_file2'(File, FullFile, Module, Action, Options) :- memberchk('$qlf'(QlfOut), Options), '$stage_file'(QlfOut, StageQlf), !, setup_call_catcher_cleanup( '$qstart'(StageQlf, Module, State), '$do_load_file'(File, FullFile, Module, Action, Options), Catcher, '$qend'(State, Catcher, StageQlf, QlfOut)). '$qdo_load_file2'(File, FullFile, Module, Action, Options) :- '$do_load_file'(File, FullFile, Module, Action, Options). '$qstart'(Qlf, Module, state(OldMode, OldModule)) :- '$qlf_open'(Qlf), '$compilation_mode'(OldMode, qlf), '$set_source_module'(OldModule, Module). '$qend'(state(OldMode, OldModule), Catcher, StageQlf, QlfOut) :- '$set_source_module'(_, OldModule), '$set_compilation_mode'(OldMode), '$qlf_close', '$install_staged_file'(Catcher, StageQlf, QlfOut, warn). '$set_source_module'(OldModule, Module) :- '$current_source_module'(OldModule), '$set_source_module'(Module). %! '$do_load_file'(+Spec, +FullFile, +ContextModule, %! -Action, +Options) is det. % % Perform the actual loading. '$do_load_file'(File, FullFile, Module, Action, Options) :- '$option'(derived_from(DerivedFrom), Options, -), '$register_derived_source'(FullFile, DerivedFrom), '$qlf_file'(File, FullFile, Absolute, Mode, Options), ( Mode == qcompile -> qcompile(Module:File, Options) ; '$do_load_file_2'(File, Absolute, Module, Action, Options) ). '$do_load_file_2'(File, Absolute, Module, Action, Options) :- '$source_file_property'(Absolute, number_of_clauses, OldClauses), statistics(cputime, OldTime), '$setup_load'(ScopedFlags, OldSandBoxed, OldVerbose, OldAutoLevel, OldXRef, Options), '$compilation_level'(Level), '$load_msg_level'(load_file, Level, StartMsgLevel, DoneMsgLevel), '$print_message'(StartMsgLevel, load_file(start(Level, file(File, Absolute)))), ( memberchk(stream(FromStream), Options) -> Input = stream ; Input = source ), ( Input == stream, ( '$option'(format(qlf), Options, source) -> set_stream(FromStream, file_name(Absolute)), '$qload_stream'(FromStream, Module, Action, LM, Options) ; '$consult_file'(stream(Absolute, FromStream, []), Module, Action, LM, Options) ) -> true ; Input == source, file_name_extension(_, Ext, Absolute), ( user:prolog_file_type(Ext, qlf), E = error(_,_), catch('$qload_file'(Absolute, Module, Action, LM, Options), E, print_message(warning, E)) -> true ; '$consult_file'(Absolute, Module, Action, LM, Options) ) -> true ; '$print_message'(error, load_file(failed(File))), fail ), '$import_from_loaded_module'(LM, Module, Options), '$source_file_property'(Absolute, number_of_clauses, NewClauses), statistics(cputime, Time), ClausesCreated is NewClauses - OldClauses, TimeUsed is Time - OldTime, '$print_message'(DoneMsgLevel, load_file(done(Level, file(File, Absolute), Action, LM, TimeUsed, ClausesCreated))), '$restore_load'(ScopedFlags, OldSandBoxed, OldVerbose, OldAutoLevel, OldXRef). '$setup_load'(ScopedFlags, OldSandBoxed, OldVerbose, OldAutoLevel, OldXRef, Options) :- '$save_file_scoped_flags'(ScopedFlags), '$set_sandboxed_load'(Options, OldSandBoxed), '$set_verbose_load'(Options, OldVerbose), '$set_optimise_load'(Options), '$update_autoload_level'(Options, OldAutoLevel), '$set_no_xref'(OldXRef). '$restore_load'(ScopedFlags, OldSandBoxed, OldVerbose, OldAutoLevel, OldXRef) :- '$set_autoload_level'(OldAutoLevel), set_prolog_flag(xref, OldXRef), set_prolog_flag(verbose_load, OldVerbose), set_prolog_flag(sandboxed_load, OldSandBoxed), '$restore_file_scoped_flags'(ScopedFlags). %! '$save_file_scoped_flags'(-State) is det. %! '$restore_file_scoped_flags'(-State) is det. % % Save/restore flags that are scoped to a compilation unit. '$save_file_scoped_flags'(State) :- current_predicate(findall/3), % Not when doing boot compile !, findall(SavedFlag, '$save_file_scoped_flag'(SavedFlag), State). '$save_file_scoped_flags'([]). '$save_file_scoped_flag'(Flag-Value) :- '$file_scoped_flag'(Flag, Default), ( current_prolog_flag(Flag, Value) -> true ; Value = Default ). '$file_scoped_flag'(generate_debug_info, true). '$file_scoped_flag'(optimise, false). '$file_scoped_flag'(xref, false). '$restore_file_scoped_flags'([]). '$restore_file_scoped_flags'([Flag-Value|T]) :- set_prolog_flag(Flag, Value), '$restore_file_scoped_flags'(T). %! '$import_from_loaded_module'(+LoadedModule, +Module, +Options) is det. % % Import public predicates from LoadedModule into Module '$import_from_loaded_module'(LoadedModule, Module, Options) :- LoadedModule \== Module, atom(LoadedModule), !, '$option'(imports(Import), Options, all), '$option'(reexport(Reexport), Options, false), '$import_list'(Module, LoadedModule, Import, Reexport). '$import_from_loaded_module'(_, _, _). %! '$set_verbose_load'(+Options, -Old) is det. % % Set the =verbose_load= flag according to Options and unify Old % with the old value. '$set_verbose_load'(Options, Old) :- current_prolog_flag(verbose_load, Old), ( memberchk(silent(Silent), Options) -> ( '$negate'(Silent, Level0) -> '$load_msg_compat'(Level0, Level) ; Level = Silent ), set_prolog_flag(verbose_load, Level) ; true ). '$negate'(true, false). '$negate'(false, true). %! '$set_sandboxed_load'(+Options, -Old) is det. % % Update the Prolog flag =sandboxed_load= from Options. Old is % unified with the old flag. % % @error permission_error(leave, sandbox, -) '$set_sandboxed_load'(Options, Old) :- current_prolog_flag(sandboxed_load, Old), ( memberchk(sandboxed(SandBoxed), Options), '$enter_sandboxed'(Old, SandBoxed, New), New \== Old -> set_prolog_flag(sandboxed_load, New) ; true ). '$enter_sandboxed'(Old, New, SandBoxed) :- ( Old == false, New == true -> SandBoxed = true, '$ensure_loaded_library_sandbox' ; Old == true, New == false -> throw(error(permission_error(leave, sandbox, -), _)) ; SandBoxed = Old ). '$enter_sandboxed'(false, true, true). '$ensure_loaded_library_sandbox' :- source_file_property(library(sandbox), module(sandbox)), !. '$ensure_loaded_library_sandbox' :- load_files(library(sandbox), [if(not_loaded), silent(true)]). '$set_optimise_load'(Options) :- ( '$option'(optimise(Optimise), Options) -> set_prolog_flag(optimise, Optimise) ; true ). '$set_no_xref'(OldXRef) :- ( current_prolog_flag(xref, OldXRef) -> true ; OldXRef = false ), set_prolog_flag(xref, false). %! '$update_autoload_level'(+Options, -OldLevel) % % Update the '$autoload_nesting' and return the old value. :- thread_local '$autoload_nesting'/1. :- '$notransact'('$autoload_nesting'/1). '$update_autoload_level'(Options, AutoLevel) :- '$option'(autoload(Autoload), Options, false), ( '$autoload_nesting'(CurrentLevel) -> AutoLevel = CurrentLevel ; AutoLevel = 0 ), ( Autoload == false -> true ; NewLevel is AutoLevel + 1, '$set_autoload_level'(NewLevel) ). '$set_autoload_level'(New) :- retractall('$autoload_nesting'(_)), asserta('$autoload_nesting'(New)). %! '$print_message'(+Level, +Term) is det. % % As print_message/2, but deal with the fact that the message % system might not yet be loaded. '$print_message'(Level, Term) :- current_predicate(system:print_message/2), !, print_message(Level, Term). '$print_message'(warning, Term) :- source_location(File, Line), !, format(user_error, 'WARNING: ~w:~w: ~p~n', [File, Line, Term]). '$print_message'(error, Term) :- !, source_location(File, Line), !, format(user_error, 'ERROR: ~w:~w: ~p~n', [File, Line, Term]). '$print_message'(_Level, _Term). '$print_message_fail'(E) :- '$print_message'(error, E), fail. %! '$consult_file'(+Path, +Module, -Action, -LoadedIn, +Options) % % Called from '$do_load_file'/4 using the goal returned by % '$consult_goal'/2. This means that the calling conventions must % be kept synchronous with '$qload_file'/6. '$consult_file'(Absolute, Module, What, LM, Options) :- '$current_source_module'(Module), % same module !, '$consult_file_2'(Absolute, Module, What, LM, Options). '$consult_file'(Absolute, Module, What, LM, Options) :- '$set_source_module'(OldModule, Module), '$ifcompiling'('$qlf_start_sub_module'(Module)), '$consult_file_2'(Absolute, Module, What, LM, Options), '$ifcompiling'('$qlf_end_part'), '$set_source_module'(OldModule). '$consult_file_2'(Absolute, Module, What, LM, Options) :- '$set_source_module'(OldModule, Module), '$load_id'(Absolute, Id, Modified, Options), '$compile_type'(What), '$save_lex_state'(LexState, Options), '$set_dialect'(Options), setup_call_cleanup( '$start_consult'(Id, Modified), '$load_file'(Absolute, Id, LM, Options), '$end_consult'(Id, LexState, OldModule)). '$end_consult'(Id, LexState, OldModule) :- '$end_consult'(Id), '$restore_lex_state'(LexState), '$set_source_module'(OldModule). :- create_prolog_flag(emulated_dialect, swi, [type(atom)]). %! '$save_lex_state'(-LexState, +Options) is det. '$save_lex_state'(State, Options) :- memberchk(scope_settings(false), Options), !, State = (-). '$save_lex_state'(lexstate(Style, Dialect), _) :- '$style_check'(Style, Style), current_prolog_flag(emulated_dialect, Dialect). '$restore_lex_state'(-) :- !. '$restore_lex_state'(lexstate(Style, Dialect)) :- '$style_check'(_, Style), set_prolog_flag(emulated_dialect, Dialect). '$set_dialect'(Options) :- memberchk(dialect(Dialect), Options), !, '$expects_dialect'(Dialect). '$set_dialect'(_). '$load_id'(stream(Id, _, _), Id, Modified, Options) :- !, '$modified_id'(Id, Modified, Options). '$load_id'(Id, Id, Modified, Options) :- '$modified_id'(Id, Modified, Options). '$modified_id'(_, Modified, Options) :- '$option'(modified(Stamp), Options, Def), Stamp \== Def, !, Modified = Stamp. '$modified_id'(Id, Modified, _) :- catch(time_file(Id, Modified), error(_, _), fail), !. '$modified_id'(_, 0, _). '$compile_type'(What) :- '$compilation_mode'(How), ( How == database -> What = compiled ; How == qlf -> What = '*qcompiled*' ; What = 'boot compiled' ). %! '$assert_load_context_module'(+File, -Module, -Options) % % Record the module a file was loaded from (see make/0). The first % clause deals with loading from another file. On reload, this % clause will be discarded by $start_consult/1. The second clause % deals with reload from the toplevel. Here we avoid creating a % duplicate dynamic (i.e., not related to a source) clause. :- dynamic '$load_context_module'/3. :- multifile '$load_context_module'/3. :- '$notransact'('$load_context_module'/3). '$assert_load_context_module'(_, _, Options) :- memberchk(register(false), Options), !. '$assert_load_context_module'(File, Module, Options) :- source_location(FromFile, Line), !, '$master_file'(FromFile, MasterFile), '$check_load_non_module'(File, Module), '$add_dialect'(Options, Options1), '$load_ctx_options'(Options1, Options2), '$store_admin_clause'( system:'$load_context_module'(File, Module, Options2), _Layout, MasterFile, FromFile:Line). '$assert_load_context_module'(File, Module, Options) :- '$check_load_non_module'(File, Module), '$add_dialect'(Options, Options1), '$load_ctx_options'(Options1, Options2), ( clause('$load_context_module'(File, Module, _), true, Ref), \+ clause_property(Ref, file(_)), erase(Ref) -> true ; true ), assertz('$load_context_module'(File, Module, Options2)). '$add_dialect'(Options0, Options) :- current_prolog_flag(emulated_dialect, Dialect), Dialect \== swi, !, Options = [dialect(Dialect)|Options0]. '$add_dialect'(Options, Options). %! '$load_ctx_options'(+Options, -CtxOptions) is det. % % Select the load options that determine the load semantics to % perform a proper reload. Delete the others. '$load_ctx_options'(Options, CtxOptions) :- '$load_ctx_options2'(Options, CtxOptions0), sort(CtxOptions0, CtxOptions). '$load_ctx_options2'([], []). '$load_ctx_options2'([H|T0], [H|T]) :- '$load_ctx_option'(H), !, '$load_ctx_options2'(T0, T). '$load_ctx_options2'([_|T0], T) :- '$load_ctx_options2'(T0, T). '$load_ctx_option'(derived_from(_)). '$load_ctx_option'(dialect(_)). '$load_ctx_option'(encoding(_)). '$load_ctx_option'(imports(_)). '$load_ctx_option'(reexport(_)). %! '$check_load_non_module'(+File) is det. % % Test that a non-module file is not loaded into multiple % contexts. '$check_load_non_module'(File, _) :- '$current_module'(_, File), !. % File is a module file '$check_load_non_module'(File, Module) :- '$load_context_module'(File, OldModule, _), Module \== OldModule, !, format(atom(Msg), 'Non-module file already loaded into module ~w; \c trying to load into ~w', [OldModule, Module]), throw(error(permission_error(load, source, File), context(load_files/2, Msg))). '$check_load_non_module'(_, _). %! '$load_file'(+Path, +Id, -Module, +Options) % % '$load_file'/4 does the actual loading. % % state(FirstTerm:boolean, % Module:atom, % AtEnd:atom, % Stop:boolean, % Id:atom, % Dialect:atom) '$load_file'(Path, Id, Module, Options) :- State = state(true, _, true, false, Id, -), ( '$source_term'(Path, _Read, _Layout, Term, Layout, _Stream, Options), '$valid_term'(Term), ( arg(1, State, true) -> '$first_term'(Term, Layout, Id, State, Options), nb_setarg(1, State, false) ; '$compile_term'(Term, Layout, Id, Options) ), arg(4, State, true) ; '$fixup_reconsult'(Id), '$end_load_file'(State) ), !, arg(2, State, Module). '$valid_term'(Var) :- var(Var), !, print_message(error, error(instantiation_error, _)). '$valid_term'(Term) :- Term \== []. '$end_load_file'(State) :- arg(1, State, true), % empty file !, nb_setarg(2, State, Module), arg(5, State, Id), '$current_source_module'(Module), '$ifcompiling'('$qlf_start_file'(Id)), '$ifcompiling'('$qlf_end_part'). '$end_load_file'(State) :- arg(3, State, End), '$end_load_file'(End, State). '$end_load_file'(true, _). '$end_load_file'(end_module, State) :- arg(2, State, Module), '$check_export'(Module), '$ifcompiling'('$qlf_end_part'). '$end_load_file'(end_non_module, _State) :- '$ifcompiling'('$qlf_end_part'). '$first_term'(?-(Directive), Layout, Id, State, Options) :- !, '$first_term'(:-(Directive), Layout, Id, State, Options). '$first_term'(:-(Directive), _Layout, Id, State, Options) :- nonvar(Directive), ( ( Directive = module(Name, Public) -> Imports = [] ; Directive = module(Name, Public, Imports) ) -> !, '$module_name'(Name, Id, Module, Options), '$start_module'(Module, Public, State, Options), '$module3'(Imports) ; Directive = expects_dialect(Dialect) -> !, '$set_dialect'(Dialect, State), fail % Still consider next term as first ). '$first_term'(Term, Layout, Id, State, Options) :- '$start_non_module'(Id, Term, State, Options), '$compile_term'(Term, Layout, Id, Options). %! '$compile_term'(+Term, +Layout, +SrcId, +Options) is det. %! '$compile_term'(+Term, +Layout, +SrcId, +SrcLoc, +Options) is det. % % Distinguish between directives and normal clauses. '$compile_term'(Term, Layout, SrcId, Options) :- '$compile_term'(Term, Layout, SrcId, -, Options). '$compile_term'(Var, _Layout, _Id, _SrcLoc, _Options) :- var(Var), !, '$instantiation_error'(Var). '$compile_term'((?-Directive), _Layout, Id, _SrcLoc, Options) :- !, '$execute_directive'(Directive, Id, Options). '$compile_term'((:-Directive), _Layout, Id, _SrcLoc, Options) :- !, '$execute_directive'(Directive, Id, Options). '$compile_term'('$source_location'(File, Line):Term, Layout, Id, _SrcLoc, Options) :- !, '$compile_term'(Term, Layout, Id, File:Line, Options). '$compile_term'(Clause, Layout, Id, SrcLoc, _Options) :- E = error(_,_), catch('$store_clause'(Clause, Layout, Id, SrcLoc), E, '$print_message'(error, E)). '$start_non_module'(_Id, Term, _State, Options) :- '$option'(must_be_module(true), Options, false), !, '$domain_error'(module_header, Term). '$start_non_module'(Id, _Term, State, _Options) :- '$current_source_module'(Module), '$ifcompiling'('$qlf_start_file'(Id)), '$qset_dialect'(State), nb_setarg(2, State, Module), nb_setarg(3, State, end_non_module). %! '$set_dialect'(+Dialect, +State) % % Sets the expected dialect. This is difficult if we are compiling % a .qlf file using qcompile/1 because the file is already open, % while we are looking for the first term to decide wether this is % a module or not. We save the dialect and set it after opening % the file or module. % % Note that expects_dialect/1 itself may be autoloaded from the % library. '$set_dialect'(Dialect, State) :- '$compilation_mode'(qlf, database), !, '$expects_dialect'(Dialect), '$compilation_mode'(_, qlf), nb_setarg(6, State, Dialect). '$set_dialect'(Dialect, _) :- '$expects_dialect'(Dialect). '$qset_dialect'(State) :- '$compilation_mode'(qlf), arg(6, State, Dialect), Dialect \== (-), !, '$add_directive_wic'('$expects_dialect'(Dialect)). '$qset_dialect'(_). '$expects_dialect'(Dialect) :- Dialect == swi, !, set_prolog_flag(emulated_dialect, Dialect). '$expects_dialect'(Dialect) :- current_predicate(expects_dialect/1), !, expects_dialect(Dialect). '$expects_dialect'(Dialect) :- use_module(library(dialect), [expects_dialect/1]), expects_dialect(Dialect). /******************************* * MODULES * *******************************/ '$start_module'(Module, _Public, State, _Options) :- '$current_module'(Module, OldFile), source_location(File, _Line), OldFile \== File, OldFile \== [], same_file(OldFile, File), !, nb_setarg(2, State, Module), nb_setarg(4, State, true). % Stop processing '$start_module'(Module, Public, State, Options) :- arg(5, State, File), nb_setarg(2, State, Module), source_location(_File, Line), '$option'(redefine_module(Action), Options, false), '$module_class'(File, Class, Super), '$reset_dialect'(File, Class), '$redefine_module'(Module, File, Action), '$declare_module'(Module, Class, Super, File, Line, false), '$export_list'(Public, Module, Ops), '$ifcompiling'('$qlf_start_module'(Module)), '$export_ops'(Ops, Module, File), '$qset_dialect'(State), nb_setarg(3, State, end_module). %! '$reset_dialect'(+File, +Class) is det. % % Load .pl files from the SWI-Prolog distribution _always_ in % `swi` dialect. '$reset_dialect'(File, library) :- file_name_extension(_, pl, File), !, set_prolog_flag(emulated_dialect, swi). '$reset_dialect'(_, _). %! '$module3'(+Spec) is det. % % Handle the 3th argument of a module declartion. '$module3'(Var) :- var(Var), !, '$instantiation_error'(Var). '$module3'([]) :- !. '$module3'([H|T]) :- !, '$module3'(H), '$module3'(T). '$module3'(Id) :- use_module(library(dialect/Id)). %! '$module_name'(?Name, +Id, -Module, +Options) is semidet. % % Determine the module name. There are some cases: % % - Option module(Module) is given. In that case, use this % module and if Module is the load context, ignore the module % header. % - The initial name is unbound. Use the base name of the % source identifier (normally the file name). Compatibility % to Ciao. This might change; I think it is wiser to use % the full unique source identifier. '$module_name'(_, _, Module, Options) :- '$option'(module(Module), Options), !, '$current_source_module'(Context), Context \== Module. % cause '$first_term'/5 to fail. '$module_name'(Var, Id, Module, Options) :- var(Var), !, file_base_name(Id, File), file_name_extension(Var, _, File), '$module_name'(Var, Id, Module, Options). '$module_name'(Reserved, _, _, _) :- '$reserved_module'(Reserved), !, throw(error(permission_error(load, module, Reserved), _)). '$module_name'(Module, _Id, Module, _). '$reserved_module'(system). '$reserved_module'(user). %! '$redefine_module'(+Module, +File, -Redefine) '$redefine_module'(_Module, _, false) :- !. '$redefine_module'(Module, File, true) :- !, ( module_property(Module, file(OldFile)), File \== OldFile -> unload_file(OldFile) ; true ). '$redefine_module'(Module, File, ask) :- ( stream_property(user_input, tty(true)), module_property(Module, file(OldFile)), File \== OldFile, '$rdef_response'(Module, OldFile, File, true) -> '$redefine_module'(Module, File, true) ; true ). '$rdef_response'(Module, OldFile, File, Ok) :- repeat, print_message(query, redefine_module(Module, OldFile, File)), get_single_char(Char), '$rdef_response'(Char, Ok0), !, Ok = Ok0. '$rdef_response'(Char, true) :- memberchk(Char, `yY`), format(user_error, 'yes~n', []). '$rdef_response'(Char, false) :- memberchk(Char, `nN`), format(user_error, 'no~n', []). '$rdef_response'(Char, _) :- memberchk(Char, `a`), format(user_error, 'abort~n', []), abort. '$rdef_response'(_, _) :- print_message(help, redefine_module_reply), fail. %! '$module_class'(+File, -Class, -Super) is det. % % Determine the file class and initial module from which File % inherits. All boot and library modules as well as the -F script % files inherit from `system`, while all normal user modules inherit % from `user`. '$module_class'(File, Class, system) :- current_prolog_flag(home, Home), sub_atom(File, 0, Len, _, Home), ( sub_atom(File, Len, _, _, '/boot/') -> !, Class = system ; '$lib_prefix'(Prefix), sub_atom(File, Len, _, _, Prefix) -> !, Class = library ; file_directory_name(File, Home), file_name_extension(_, rc, File) -> !, Class = library ). '$module_class'(_, user, user). '$lib_prefix'('/library'). '$lib_prefix'('/xpce/prolog/'). '$check_export'(Module) :- '$undefined_export'(Module, UndefList), ( '$member'(Undef, UndefList), strip_module(Undef, _, Local), print_message(error, undefined_export(Module, Local)), fail ; true ). %! '$import_list'(+TargetModule, +FromModule, +Import, +Reexport) is det. % % Import from FromModule to TargetModule. Import is one of =all=, % a list of optionally mapped predicate indicators or a term % except(Import). '$import_list'(_, _, Var, _) :- var(Var), !, throw(error(instantitation_error, _)). '$import_list'(Target, Source, all, Reexport) :- !, '$exported_ops'(Source, Import, Predicates), '$module_property'(Source, exports(Predicates)), '$import_all'(Import, Target, Source, Reexport, weak). '$import_list'(Target, Source, except(Spec), Reexport) :- !, '$exported_ops'(Source, Export, Predicates), '$module_property'(Source, exports(Predicates)), ( is_list(Spec) -> true ; throw(error(type_error(list, Spec), _)) ), '$import_except'(Spec, Source, Export, Import), '$import_all'(Import, Target, Source, Reexport, weak). '$import_list'(Target, Source, Import, Reexport) :- !, is_list(Import), !, '$import_all'(Import, Target, Source, Reexport, strong). '$import_list'(_, _, Import, _) :- '$type_error'(import_specifier, Import). '$import_except'([], _, List, List). '$import_except'([H|T], Source, List0, List) :- '$import_except_1'(H, Source, List0, List1), '$import_except'(T, Source, List1, List). '$import_except_1'(Var, _, _, _) :- var(Var), !, '$instantiation_error'(Var). '$import_except_1'(PI as N, _, List0, List) :- '$pi'(PI), atom(N), !, '$canonical_pi'(PI, CPI), '$import_as'(CPI, N, List0, List). '$import_except_1'(op(P,A,N), _, List0, List) :- !, '$remove_ops'(List0, op(P,A,N), List). '$import_except_1'(PI, Source, List0, List) :- '$pi'(PI), !, '$canonical_pi'(PI, CPI), ( '$select'(P, List0, List), '$canonical_pi'(CPI, P) -> true ; print_message(warning, error(existence_error(export, PI, module(Source)), _)), List = List0 ). '$import_except_1'(Except, _, _, _) :- '$type_error'(import_specifier, Except). '$import_as'(CPI, N, [PI2|T], [CPI as N|T]) :- '$canonical_pi'(PI2, CPI), !. '$import_as'(PI, N, [H|T0], [H|T]) :- !, '$import_as'(PI, N, T0, T). '$import_as'(PI, _, _, _) :- '$existence_error'(export, PI). '$pi'(N/A) :- atom(N), integer(A), !. '$pi'(N//A) :- atom(N), integer(A). '$canonical_pi'(N//A0, N/A) :- A is A0 + 2. '$canonical_pi'(PI, PI). '$remove_ops'([], _, []). '$remove_ops'([Op|T0], Pattern, T) :- subsumes_term(Pattern, Op), !, '$remove_ops'(T0, Pattern, T). '$remove_ops'([H|T0], Pattern, [H|T]) :- '$remove_ops'(T0, Pattern, T). %! '$import_all'(+Import, +Context, +Source, +Reexport, +Strength) '$import_all'(Import, Context, Source, Reexport, Strength) :- '$import_all2'(Import, Context, Source, Imported, ImpOps, Strength), ( Reexport == true, ( '$list_to_conj'(Imported, Conj) -> export(Context:Conj), '$ifcompiling'('$add_directive_wic'(export(Context:Conj))) ; true ), source_location(File, _Line), '$export_ops'(ImpOps, Context, File) ; true ). %! '$import_all2'(+Imports, +Context, +Source, -Imported, -ImpOps, +Strength) '$import_all2'([], _, _, [], [], _). '$import_all2'([PI as NewName|Rest], Context, Source, [NewName/Arity|Imported], ImpOps, Strength) :- !, '$canonical_pi'(PI, Name/Arity), length(Args, Arity), Head =.. [Name|Args], NewHead =.. [NewName|Args], ( '$get_predicate_attribute'(Source:Head, meta_predicate, Meta) -> Meta =.. [Name|MetaArgs], NewMeta =.. [NewName|MetaArgs], meta_predicate(Context:NewMeta) ; '$get_predicate_attribute'(Source:Head, transparent, 1) -> '$set_predicate_attribute'(Context:NewHead, transparent, true) ; true ), ( source_location(File, Line) -> E = error(_,_), catch('$store_admin_clause'((NewHead :- Source:Head), _Layout, File, File:Line), E, '$print_message'(error, E)) ; assertz((NewHead :- !, Source:Head)) % ! avoids problems with ), % duplicate load '$import_all2'(Rest, Context, Source, Imported, ImpOps, Strength). '$import_all2'([op(P,A,N)|Rest], Context, Source, Imported, [op(P,A,N)|ImpOps], Strength) :- !, '$import_ops'(Context, Source, op(P,A,N)), '$import_all2'(Rest, Context, Source, Imported, ImpOps, Strength). '$import_all2'([Pred|Rest], Context, Source, [Pred|Imported], ImpOps, Strength) :- Error = error(_,_), catch(Context:'$import'(Source:Pred, Strength), Error, print_message(error, Error)), '$ifcompiling'('$import_wic'(Source, Pred, Strength)), '$import_all2'(Rest, Context, Source, Imported, ImpOps, Strength). '$list_to_conj'([One], One) :- !. '$list_to_conj'([H|T], (H,Rest)) :- '$list_to_conj'(T, Rest). %! '$exported_ops'(+Module, -Ops, ?Tail) is det. % % Ops is a list of op(P,A,N) terms representing the operators % exported from Module. '$exported_ops'(Module, Ops, Tail) :- '$c_current_predicate'(_, Module:'$exported_op'(_,_,_)), !, findall(op(P,A,N), Module:'$exported_op'(P,A,N), Ops, Tail). '$exported_ops'(_, Ops, Ops). '$exported_op'(Module, P, A, N) :- '$c_current_predicate'(_, Module:'$exported_op'(_,_,_)), Module:'$exported_op'(P, A, N). %! '$import_ops'(+Target, +Source, +Pattern) % % Import the operators export from Source into the module table of % Target. We only import operators that unify with Pattern. '$import_ops'(To, From, Pattern) :- ground(Pattern), !, Pattern = op(P,A,N), op(P,A,To:N), ( '$exported_op'(From, P, A, N) -> true ; print_message(warning, no_exported_op(From, Pattern)) ). '$import_ops'(To, From, Pattern) :- ( '$exported_op'(From, Pri, Assoc, Name), Pattern = op(Pri, Assoc, Name), op(Pri, Assoc, To:Name), fail ; true ). %! '$export_list'(+Declarations, +Module, -Ops) % % Handle the export list of the module declaration for Module % associated to File. '$export_list'(Decls, Module, Ops) :- is_list(Decls), !, '$do_export_list'(Decls, Module, Ops). '$export_list'(Decls, _, _) :- var(Decls), throw(error(instantiation_error, _)). '$export_list'(Decls, _, _) :- throw(error(type_error(list, Decls), _)). '$do_export_list'([], _, []) :- !. '$do_export_list'([H|T], Module, Ops) :- !, E = error(_,_), catch('$export1'(H, Module, Ops, Ops1), E, ('$print_message'(error, E), Ops = Ops1)), '$do_export_list'(T, Module, Ops1). '$export1'(Var, _, _, _) :- var(Var), !, throw(error(instantiation_error, _)). '$export1'(Op, _, [Op|T], T) :- Op = op(_,_,_), !. '$export1'(PI0, Module, Ops, Ops) :- strip_module(Module:PI0, M, PI), ( PI = (_//_) -> non_terminal(M:PI) ; true ), export(M:PI). '$export_ops'([op(Pri, Assoc, Name)|T], Module, File) :- E = error(_,_), catch(( '$execute_directive'(op(Pri, Assoc, Module:Name), File, []), '$export_op'(Pri, Assoc, Name, Module, File) ), E, '$print_message'(error, E)), '$export_ops'(T, Module, File). '$export_ops'([], _, _). '$export_op'(Pri, Assoc, Name, Module, File) :- ( '$get_predicate_attribute'(Module:'$exported_op'(_,_,_), defined, 1) -> true ; '$execute_directive'(discontiguous(Module:'$exported_op'/3), File, []) ), '$store_admin_clause'('$exported_op'(Pri, Assoc, Name), _Layout, File, -). %! '$execute_directive'(:Goal, +File, +Options) is det. % % Execute the argument of :- or ?- while loading a file. '$execute_directive'(Var, _F, _Options) :- var(Var), '$instantiation_error'(Var). '$execute_directive'(encoding(Encoding), _F, _Options) :- !, ( '$load_input'(_F, S) -> set_stream(S, encoding(Encoding)) ). '$execute_directive'(Goal, _, Options) :- \+ '$compilation_mode'(database), !, '$add_directive_wic2'(Goal, Type, Options), ( Type == call % suspend compiling into .qlf file -> '$compilation_mode'(Old, database), setup_call_cleanup( '$directive_mode'(OldDir, Old), '$execute_directive_3'(Goal), ( '$set_compilation_mode'(Old), '$set_directive_mode'(OldDir) )) ; '$execute_directive_3'(Goal) ). '$execute_directive'(Goal, _, _Options) :- '$execute_directive_3'(Goal). '$execute_directive_3'(Goal) :- '$current_source_module'(Module), '$valid_directive'(Module:Goal), !, ( '$pattr_directive'(Goal, Module) -> true ; Term = error(_,_), catch(Module:Goal, Term, '$exception_in_directive'(Term)) -> true ; '$print_message'(warning, goal_failed(directive, Module:Goal)), fail ). '$execute_directive_3'(_). %! '$valid_directive'(:Directive) is det. % % If the flag =sandboxed_load= is =true=, this calls % prolog:sandbox_allowed_directive/1. This call can deny execution % of the directive by throwing an exception. :- multifile prolog:sandbox_allowed_directive/1. :- multifile prolog:sandbox_allowed_clause/1. :- meta_predicate '$valid_directive'(:). '$valid_directive'(_) :- current_prolog_flag(sandboxed_load, false), !. '$valid_directive'(Goal) :- Error = error(Formal, _), catch(prolog:sandbox_allowed_directive(Goal), Error, true), !, ( var(Formal) -> true ; print_message(error, Error), fail ). '$valid_directive'(Goal) :- print_message(error, error(permission_error(execute, sandboxed_directive, Goal), _)), fail. '$exception_in_directive'(Term) :- '$print_message'(error, Term), fail. %! '$add_directive_wic2'(+Directive, -Type, +Options) is det. % % Classify Directive as one of `load` or `call`. Add a `call` % directive to the QLF file. `load` directives continue the % compilation into the QLF file. '$add_directive_wic2'(Goal, Type, Options) :- '$common_goal_type'(Goal, Type, Options), !, ( Type == load -> true ; '$current_source_module'(Module), '$add_directive_wic'(Module:Goal) ). '$add_directive_wic2'(Goal, _, _) :- ( '$compilation_mode'(qlf) % no problem for qlf files -> true ; print_message(error, mixed_directive(Goal)) ). %! '$common_goal_type'(+Directive, -Type, +Options) is semidet. % % True when _all_ subgoals of Directive must be handled using `load` % or `call`. '$common_goal_type'((A,B), Type, Options) :- !, '$common_goal_type'(A, Type, Options), '$common_goal_type'(B, Type, Options). '$common_goal_type'((A;B), Type, Options) :- !, '$common_goal_type'(A, Type, Options), '$common_goal_type'(B, Type, Options). '$common_goal_type'((A->B), Type, Options) :- !, '$common_goal_type'(A, Type, Options), '$common_goal_type'(B, Type, Options). '$common_goal_type'(Goal, Type, Options) :- '$goal_type'(Goal, Type, Options). '$goal_type'(Goal, Type, Options) :- ( '$load_goal'(Goal, Options) -> Type = load ; Type = call ). :- thread_local '$qlf':qinclude/1. '$load_goal'([_|_], _). '$load_goal'(consult(_), _). '$load_goal'(load_files(_), _). '$load_goal'(load_files(_,Options), _) :- memberchk(qcompile(QlfMode), Options), '$qlf_part_mode'(QlfMode). '$load_goal'(ensure_loaded(_), _) :- '$compilation_mode'(wic). '$load_goal'(use_module(_), _) :- '$compilation_mode'(wic). '$load_goal'(use_module(_, _), _) :- '$compilation_mode'(wic). '$load_goal'(reexport(_), _) :- '$compilation_mode'(wic). '$load_goal'(reexport(_, _), _) :- '$compilation_mode'(wic). '$load_goal'(Goal, _Options) :- '$qlf':qinclude(user), '$load_goal_file'(Goal, File), '$all_user_files'(File). '$load_goal_file'(load_files(F), F). '$load_goal_file'(load_files(F, _), F). '$load_goal_file'(ensure_loaded(F), F). '$load_goal_file'(use_module(F), F). '$load_goal_file'(use_module(F, _), F). '$load_goal_file'(reexport(F), F). '$load_goal_file'(reexport(F, _), F). '$all_user_files'([]) :- !. '$all_user_files'([H|T]) :- !, '$is_user_file'(H), '$all_user_files'(T). '$all_user_files'(F) :- ground(F), '$is_user_file'(F). '$is_user_file'(File) :- absolute_file_name(File, Path, [ file_type(prolog), access(read) ]), '$module_class'(Path, user, _). '$qlf_part_mode'(part). '$qlf_part_mode'(true). % compatibility /******************************** * COMPILE A CLAUSE * *********************************/ %! '$store_admin_clause'(+Clause, ?Layout, +Owner, +SrcLoc) is det. % % Store a clause into the database for administrative purposes. % This bypasses sanity checking. '$store_admin_clause'(Clause, Layout, Owner, SrcLoc) :- Owner \== (-), !, setup_call_cleanup( '$start_aux'(Owner, Context), '$store_admin_clause2'(Clause, Layout, Owner, SrcLoc), '$end_aux'(Owner, Context)). '$store_admin_clause'(Clause, Layout, File, SrcLoc) :- '$store_admin_clause2'(Clause, Layout, File, SrcLoc). '$store_admin_clause2'(Clause, _Layout, File, SrcLoc) :- ( '$compilation_mode'(database) -> '$record_clause'(Clause, File, SrcLoc) ; '$record_clause'(Clause, File, SrcLoc, Ref), '$qlf_assert_clause'(Ref, development) ). %! '$store_clause'(+Clause, ?Layout, +Owner, +SrcLoc) is det. % % Store a clause into the database. % % @arg Owner is the file-id that owns the clause % @arg SrcLoc is the file:line term where the clause % originates from. '$store_clause'((_, _), _, _, _) :- !, print_message(error, cannot_redefine_comma), fail. '$store_clause'((Pre => Body), _Layout, File, SrcLoc) :- nonvar(Pre), Pre = (Head,Cond), !, ( '$is_true'(Cond), current_prolog_flag(optimise, true) -> '$store_clause'((Head=>Body), _Layout, File, SrcLoc) ; '$store_clause'(?=>(Head,(Cond,!,Body)), _Layout, File, SrcLoc) ). '$store_clause'(Clause, _Layout, File, SrcLoc) :- '$valid_clause'(Clause), !, ( '$compilation_mode'(database) -> '$record_clause'(Clause, File, SrcLoc) ; '$record_clause'(Clause, File, SrcLoc, Ref), '$qlf_assert_clause'(Ref, development) ). '$is_true'(true) => true. '$is_true'((A,B)) => '$is_true'(A), '$is_true'(B). '$is_true'(_) => fail. '$valid_clause'(_) :- current_prolog_flag(sandboxed_load, false), !. '$valid_clause'(Clause) :- \+ '$cross_module_clause'(Clause), !. '$valid_clause'(Clause) :- Error = error(Formal, _), catch(prolog:sandbox_allowed_clause(Clause), Error, true), !, ( var(Formal) -> true ; print_message(error, Error), fail ). '$valid_clause'(Clause) :- print_message(error, error(permission_error(assert, sandboxed_clause, Clause), _)), fail. '$cross_module_clause'(Clause) :- '$head_module'(Clause, Module), \+ '$current_source_module'(Module). '$head_module'(Var, _) :- var(Var), !, fail. '$head_module'((Head :- _), Module) :- '$head_module'(Head, Module). '$head_module'(Module:_, Module). '$clause_source'('$source_location'(File,Line):Clause, Clause, File:Line) :- !. '$clause_source'(Clause, Clause, -). %! '$store_clause'(+Term, +Id) is det. % % This interface is used by PlDoc (and who knows). Kept for to avoid % compatibility issues. :- public '$store_clause'/2. '$store_clause'(Term, Id) :- '$clause_source'(Term, Clause, SrcLoc), '$store_clause'(Clause, _, Id, SrcLoc). %! compile_aux_clauses(+Clauses) is det. % % Compile clauses given the current source location but do not % change the notion of the current procedure such that % discontiguous warnings are not issued. The clauses are % associated with the current file and therefore wiped out if the % file is reloaded. % % If the cross-referencer is active, we should not (re-)assert the % clauses. Actually, we should make them known to the % cross-referencer. How do we do that? Maybe we need a different % API, such as in: % % == % expand_term_aux(Goal, NewGoal, Clauses) % == % % @tbd Deal with source code layout? compile_aux_clauses(_Clauses) :- current_prolog_flag(xref, true), !. compile_aux_clauses(Clauses) :- source_location(File, _Line), '$compile_aux_clauses'(Clauses, File). '$compile_aux_clauses'(Clauses, File) :- setup_call_cleanup( '$start_aux'(File, Context), '$store_aux_clauses'(Clauses, File), '$end_aux'(File, Context)). '$store_aux_clauses'(Clauses, File) :- is_list(Clauses), !, forall('$member'(C,Clauses), '$compile_term'(C, _Layout, File, [])). '$store_aux_clauses'(Clause, File) :- '$compile_term'(Clause, _Layout, File, []). /******************************* * STAGING * *******************************/ %! '$stage_file'(+Target, -Stage) is det. %! '$install_staged_file'(+Catcher, +Staged, +Target, +OnError). % % Create files using _staging_, where we first write a temporary file % and move it to Target if the file was created successfully. This % provides an atomic transition, preventing customers from reading an % incomplete file. '$stage_file'(Target, Stage) :- file_directory_name(Target, Dir), file_base_name(Target, File), current_prolog_flag(pid, Pid), format(atom(Stage), '~w/.~w.~d', [Dir,File,Pid]). '$install_staged_file'(exit, Staged, Target, error) :- !, rename_file(Staged, Target). '$install_staged_file'(exit, Staged, Target, OnError) :- !, InstallError = error(_,_), catch(rename_file(Staged, Target), InstallError, '$install_staged_error'(OnError, InstallError, Staged, Target)). '$install_staged_file'(_, Staged, _, _OnError) :- E = error(_,_), catch(delete_file(Staged), E, true). '$install_staged_error'(OnError, Error, Staged, _Target) :- E = error(_,_), catch(delete_file(Staged), E, true), ( OnError = silent -> true ; OnError = fail -> fail ; print_message(warning, Error) ). /******************************* * READING * *******************************/ :- multifile prolog:comment_hook/3. % hook for read_clause/3 /******************************* * FOREIGN INTERFACE * *******************************/ % call-back from PL_register_foreign(). First argument is the module % into which the foreign predicate is loaded and second is a term % describing the arguments. :- dynamic '$foreign_registered'/2. /******************************* * TEMPORARY TERM EXPANSION * *******************************/ % Provide temporary definitions for the boot-loader. These are replaced % by the real thing in load.pl :- dynamic '$expand_goal'/2, '$expand_term'/4. '$expand_goal'(In, In). '$expand_term'(In, Layout, In, Layout). /******************************* * TYPE SUPPORT * *******************************/ '$type_error'(Type, Value) :- ( var(Value) -> throw(error(instantiation_error, _)) ; throw(error(type_error(Type, Value), _)) ). '$domain_error'(Type, Value) :- throw(error(domain_error(Type, Value), _)). '$existence_error'(Type, Object) :- throw(error(existence_error(Type, Object), _)). '$existence_error'(Type, Object, In) :- throw(error(existence_error(Type, Object, In), _)). '$permission_error'(Action, Type, Term) :- throw(error(permission_error(Action, Type, Term), _)). '$instantiation_error'(_Var) :- throw(error(instantiation_error, _)). '$uninstantiation_error'(NonVar) :- throw(error(uninstantiation_error(NonVar), _)). '$must_be'(list, X) :- !, '$skip_list'(_, X, Tail), ( Tail == [] -> true ; '$type_error'(list, Tail) ). '$must_be'(options, X) :- !, ( '$is_options'(X) -> true ; '$type_error'(options, X) ). '$must_be'(atom, X) :- !, ( atom(X) -> true ; '$type_error'(atom, X) ). '$must_be'(integer, X) :- !, ( integer(X) -> true ; '$type_error'(integer, X) ). '$must_be'(between(Low,High), X) :- !, ( integer(X) -> ( between(Low, High, X) -> true ; '$domain_error'(between(Low,High), X) ) ; '$type_error'(integer, X) ). '$must_be'(callable, X) :- !, ( callable(X) -> true ; '$type_error'(callable, X) ). '$must_be'(acyclic, X) :- !, ( acyclic_term(X) -> true ; '$domain_error'(acyclic_term, X) ). '$must_be'(oneof(Type, Domain, List), X) :- !, '$must_be'(Type, X), ( memberchk(X, List) -> true ; '$domain_error'(Domain, X) ). '$must_be'(boolean, X) :- !, ( (X == true ; X == false) -> true ; '$type_error'(boolean, X) ). '$must_be'(ground, X) :- !, ( ground(X) -> true ; '$instantiation_error'(X) ). '$must_be'(filespec, X) :- !, ( ( atom(X) ; string(X) ; compound(X), compound_name_arity(X, _, 1) ) -> true ; '$type_error'(filespec, X) ). % Use for debugging %'$must_be'(Type, _X) :- format('Unknown $must_be type: ~q~n', [Type]). /******************************** * LIST PROCESSING * *********************************/ '$member'(El, [H|T]) :- '$member_'(T, El, H). '$member_'(_, El, El). '$member_'([H|T], El, _) :- '$member_'(T, El, H). '$append'([], L, L). '$append'([H|T], L, [H|R]) :- '$append'(T, L, R). '$append'(ListOfLists, List) :- '$must_be'(list, ListOfLists), '$append_'(ListOfLists, List). '$append_'([], []). '$append_'([L|Ls], As) :- '$append'(L, Ws, As), '$append_'(Ls, Ws). '$select'(X, [X|Tail], Tail). '$select'(Elem, [Head|Tail], [Head|Rest]) :- '$select'(Elem, Tail, Rest). '$reverse'(L1, L2) :- '$reverse'(L1, [], L2). '$reverse'([], List, List). '$reverse'([Head|List1], List2, List3) :- '$reverse'(List1, [Head|List2], List3). '$delete'([], _, []) :- !. '$delete'([Elem|Tail], Elem, Result) :- !, '$delete'(Tail, Elem, Result). '$delete'([Head|Tail], Elem, [Head|Rest]) :- '$delete'(Tail, Elem, Rest). '$last'([H|T], Last) :- '$last'(T, H, Last). '$last'([], Last, Last). '$last'([H|T], _, Last) :- '$last'(T, H, Last). :- meta_predicate '$include'(1,+,-). '$include'(_, [], []). '$include'(G, [H|T0], L) :- ( call(G,H) -> L = [H|T] ; T = L ), '$include'(G, T0, T). %! length(?List, ?N) % % Is true when N is the length of List. :- '$iso'((length/2)). length(List, Length) :- var(Length), !, '$skip_list'(Length0, List, Tail), ( Tail == [] -> Length = Length0 % +,- ; var(Tail) -> Tail \== Length, % avoid length(L,L) '$length3'(Tail, Length, Length0) % -,- ; throw(error(type_error(list, List), context(length/2, _))) ). length(List, Length) :- integer(Length), Length >= 0, !, '$skip_list'(Length0, List, Tail), ( Tail == [] % proper list -> Length = Length0 ; var(Tail) -> Extra is Length-Length0, '$length'(Tail, Extra) ; throw(error(type_error(list, List), context(length/2, _))) ). length(_, Length) :- integer(Length), !, throw(error(domain_error(not_less_than_zero, Length), context(length/2, _))). length(_, Length) :- throw(error(type_error(integer, Length), context(length/2, _))). '$length3'([], N, N). '$length3'([_|List], N, N0) :- N1 is N0+1, '$length3'(List, N, N1). /******************************* * OPTION PROCESSING * *******************************/ %! '$is_options'(@Term) is semidet. % % True if Term looks like it provides options. '$is_options'(Map) :- is_dict(Map, _), !. '$is_options'(List) :- is_list(List), ( List == [] -> true ; List = [H|_], '$is_option'(H, _, _) ). '$is_option'(Var, _, _) :- var(Var), !, fail. '$is_option'(F, Name, Value) :- functor(F, _, 1), !, F =.. [Name,Value]. '$is_option'(Name=Value, Name, Value). %! '$option'(?Opt, +Options) is semidet. '$option'(Opt, Options) :- is_dict(Options), !, [Opt] :< Options. '$option'(Opt, Options) :- memberchk(Opt, Options). %! '$option'(?Opt, +Options, +Default) is det. '$option'(Term, Options, Default) :- arg(1, Term, Value), functor(Term, Name, 1), ( is_dict(Options) -> ( get_dict(Name, Options, GVal) -> Value = GVal ; Value = Default ) ; functor(Gen, Name, 1), arg(1, Gen, GVal), ( memberchk(Gen, Options) -> Value = GVal ; Value = Default ) ). %! '$select_option'(?Opt, +Options, -Rest) is semidet. % % Select an option from Options. % % @arg Rest is always a map. '$select_option'(Opt, Options, Rest) :- '$options_dict'(Options, Dict), select_dict([Opt], Dict, Rest). %! '$merge_options'(+New, +Default, -Merged) is det. % % Add/replace options specified in New. % % @arg Merged is always a map. '$merge_options'(New, Old, Merged) :- '$options_dict'(New, NewDict), '$options_dict'(Old, OldDict), put_dict(NewDict, OldDict, Merged). %! '$options_dict'(+Options, --Dict) is det. % % Translate to an options dict. For possible duplicate keys we keep % the first. '$options_dict'(Options, Dict) :- is_list(Options), !, '$keyed_options'(Options, Keyed), sort(1, @<, Keyed, UniqueKeyed), '$pairs_values'(UniqueKeyed, Unique), dict_create(Dict, _, Unique). '$options_dict'(Dict, Dict) :- is_dict(Dict), !. '$options_dict'(Options, _) :- '$domain_error'(options, Options). '$keyed_options'([], []). '$keyed_options'([H0|T0], [H|T]) :- '$keyed_option'(H0, H), '$keyed_options'(T0, T). '$keyed_option'(Var, _) :- var(Var), !, '$instantiation_error'(Var). '$keyed_option'(Name=Value, Name-(Name-Value)). '$keyed_option'(NameValue, Name-(Name-Value)) :- compound_name_arguments(NameValue, Name, [Value]), !. '$keyed_option'(Opt, _) :- '$domain_error'(option, Opt). /******************************* * HANDLE TRACER 'L'-COMMAND * *******************************/ :- public '$prolog_list_goal'/1. :- multifile user:prolog_list_goal/1. '$prolog_list_goal'(Goal) :- user:prolog_list_goal(Goal), !. '$prolog_list_goal'(Goal) :- use_module(library(listing), [listing/1]), @(listing(Goal), user). /******************************* * HALT * *******************************/ :- '$iso'((halt/0)). halt :- '$exit_code'(Code), ( Code == 0 -> true ; print_message(warning, on_error(halt(1))) ), halt(Code). %! '$exit_code'(Code) % % Determine the exit code baed on the `on_error` and `on_warning` % flags. Also used by qsave_toplevel/0. '$exit_code'(Code) :- ( ( current_prolog_flag(on_error, status), statistics(errors, Count), Count > 0 ; current_prolog_flag(on_warning, status), statistics(warnings, Count), Count > 0 ) -> Code = 1 ; Code = 0 ). %! at_halt(:Goal) % % Register Goal to be called if the system halts. % % @tbd: get location into the error message :- meta_predicate at_halt(0). :- dynamic system:term_expansion/2, '$at_halt'/2. :- multifile system:term_expansion/2, '$at_halt'/2. system:term_expansion((:- at_halt(Goal)), system:'$at_halt'(Module:Goal, File:Line)) :- \+ current_prolog_flag(xref, true), source_location(File, Line), '$current_source_module'(Module). at_halt(Goal) :- asserta('$at_halt'(Goal, (-):0)). :- public '$run_at_halt'/0. '$run_at_halt' :- forall(clause('$at_halt'(Goal, Src), true, Ref), ( '$call_at_halt'(Goal, Src), erase(Ref) )). '$call_at_halt'(Goal, _Src) :- catch(Goal, E, true), !, ( var(E) -> true ; subsumes_term(cancel_halt(_), E) -> '$print_message'(informational, E), fail ; '$print_message'(error, E) ). '$call_at_halt'(Goal, _Src) :- '$print_message'(warning, goal_failed(at_halt, Goal)). %! cancel_halt(+Reason) % % This predicate may be called from at_halt/1 handlers to cancel % halting the program. If causes halt/0 to fail rather than % terminating the process. cancel_halt(Reason) :- throw(cancel_halt(Reason)). %! prolog:heartbeat % % Called every _N_ inferences of the Prolog flag `heartbeat` is % non-zero. :- multifile prolog:heartbeat/0. /******************************** * LOAD OTHER MODULES * *********************************/ :- meta_predicate '$load_wic_files'(:). '$load_wic_files'(Files) :- Files = Module:_, '$execute_directive'('$set_source_module'(OldM, Module), [], []), '$save_lex_state'(LexState, []), '$style_check'(_, 0xC7), % see style_name/2 in syspred.pl '$compilation_mode'(OldC, wic), consult(Files), '$execute_directive'('$set_source_module'(OldM), [], []), '$execute_directive'('$restore_lex_state'(LexState), [], []), '$set_compilation_mode'(OldC). %! '$load_additional_boot_files' is det. % % Called from compileFileList() in pl-wic.c. Gets the files from % "-c file ..." and loads them into the module user. :- public '$load_additional_boot_files'/0. '$load_additional_boot_files' :- current_prolog_flag(argv, Argv), '$get_files_argv'(Argv, Files), ( Files \== [] -> format('Loading additional boot files~n'), '$load_wic_files'(user:Files), format('additional boot files loaded~n') ; true ). '$get_files_argv'([], []) :- !. '$get_files_argv'(['-c'|Files], Files) :- !. '$get_files_argv'([_|Rest], Files) :- '$get_files_argv'(Rest, Files). '$:-'(('$boot_message'('Loading Prolog startup files~n', []), source_location(File, _Line), file_directory_name(File, Dir), atom_concat(Dir, '/load.pl', LoadFile), '$load_wic_files'(system:[LoadFile]), ( current_prolog_flag(windows, true) -> atom_concat(Dir, '/menu.pl', MenuFile), '$load_wic_files'(system:[MenuFile]) ; true ), '$boot_message'('SWI-Prolog boot files loaded~n', []), '$compilation_mode'(OldC, wic), '$execute_directive'('$set_source_module'(user), [], []), '$set_compilation_mode'(OldC) )).