/* $Id: messages.pl,v 1.88 2007/03/28 08:52:08 jan Exp $ Part of SWI-Prolog Author: Jan Wielemaker E-mail: wielemak@scienc.uva.nl WWW: http://www.swi-prolog.org Copyright (C): 1985-2007, University of Amsterdam This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this library; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA As a special exception, if you link this library with other files, compiled with a Free Software compiler, to produce an executable, this library does not by itself cause the resulting executable to be covered by the GNU General Public License. This exception does not however invalidate any other reasons why the executable file might be covered by the GNU General Public License. */ :- module($messages, [ print_message/2, % +Kind, +Term print_message_lines/3, % +Stream, +Prefix, +Lines message_to_string/2 % +Term, -String ]). :- multifile prolog:message/3, prolog:error_message/3. :- discontiguous prolog_message/3. translate_message(Term) --> {var(Term)}, !, [ 'Unknown message: ~p'-[Term] ]. translate_message(Term) --> prolog:message(Term). translate_message(Term) --> prolog_message(Term). translate_message(error(resource_error(stack), Name)) --> [ 'Out of ~w stack'-[Name] ]. translate_message(error(resource_error(Missing), _)) --> [ 'Not enough resources: ~w'-[Missing] ]. translate_message(error(ISO, SWI)) --> swi_context(SWI), term_message(ISO), swi_extra(SWI). translate_message($aborted) --> [ 'Execution Aborted' ]. translate_message(message_lines(Lines), L, T) :- % deal with old C-warning() make_message_lines(Lines, L, T). translate_message(format(Fmt, Args)) --> [ Fmt-Args ]. translate_message(Term) --> { Term = error(_, _) }, [ 'Unknown exception: ~p'-[Term] ]. translate_message(Term) --> [ 'Unknown message: ~p'-[Term] ]. make_message_lines([], T, T) :- !. make_message_lines([Last], ['~w'-[Last]|T], T) :- !. make_message_lines([L0|LT], ['~w'-[L0],nl|T0], T) :- make_message_lines(LT, T0, T). term_message(Term) --> {var(Term)}, !, [ 'Unknown error term: ~p'-[Term] ]. term_message(Term) --> prolog:error_message(Term). term_message(Term) --> iso_message(Term). term_message(Term) --> swi_message(Term). term_message(Term) --> [ 'Unknown error term: ~p'-[Term] ]. iso_message(type_error(evaluable, Actual)) --> [ 'Arithmetic: `~p'' is not a function'-[Actual] ]. iso_message(type_error(free_of_attvar, Actual)) --> [ 'Type error: `~W'' contains attributed variables'- [Actual,[portray(true), attributes(portray)]] ]. iso_message(type_error(Expected, Actual)) --> [ 'Type error: `~w'' expected, found `~p'''-[Expected, Actual] ]. iso_message(domain_error(Domain, Actual)) --> [ 'Domain error: `~w'' expected, found `~p'''-[Domain, Actual] ]. iso_message(instantiation_error) --> [ 'Arguments are not sufficiently instantiated' ]. iso_message(representation_error(What)) --> [ 'Cannot represent due to `~w'''-[What] ]. iso_message(permission_error(Action, built_in_procedure, Pred)) --> { user_predicate_indicator(Pred, PI) }, [ 'No permission to ~w built-in predicate `~p'''-[Action, PI] ], ( {Action \== export} -> [ nl, 'Use :- redefine_system_predicate(+Head) if redefinition is intended' ] ; [] ). iso_message(permission_error(Action, Type, Object)) --> [ 'No permission to ~w ~w `~p'''-[Action, Type, Object] ]. iso_message(evaluation_error(Which)) --> [ 'Arithmetic: evaluation error: `~p'''-[Which] ]. iso_message(existence_error(procedure, Proc)) --> [ 'Undefined procedure: ~p'-[Proc] ], { dwim_predicates(Proc, Dwims) }, ( {Dwims \== []} -> [nl, ' However, there are definitions for:', nl], dwim_message(Dwims) ; [] ). iso_message(existence_error(Type, Object)) --> [ '~w `~p'' does not exist'-[Type, Object] ]. iso_message(busy(Type, Object)) --> [ '~w `~p'' is busy'-[Type, Object] ]. iso_message(syntax_error(Id)) --> [ 'Syntax error: ' ], syntax_error(Id). syntax_error(end_of_clause) --> [ 'Unexpected end of clause' ]. syntax_error(end_of_clause_expected) --> [ 'End of clause expected' ]. syntax_error(end_of_file) --> [ 'Unexpected end of file' ]. syntax_error(end_of_file_in_atom) --> [ 'End of file in quoted atom' ]. syntax_error(end_of_file_in_block_comment) --> [ 'End of file in /* ... */ comment' ]. syntax_error(end_of_file_in_string) --> [ 'End of file in quoted string' ]. syntax_error(illegal_number) --> [ 'Illegal number' ]. syntax_error(long_atom) --> [ 'Atom too long (see style_check/1)' ]. syntax_error(long_string) --> [ 'String too long (see style_check/1)' ]. syntax_error(operator_clash) --> [ 'Operator priority clash' ]. syntax_error(operator_expected) --> [ 'Operator expected' ]. syntax_error(operator_balance) --> [ 'Unbalanced operator' ]. syntax_error(cannot_start_term) --> [ 'Illegal start of term' ]. syntax_error(punct(Punct, End)) --> [ 'Unexpected `~w\' before `~w\''-[Punct, End] ]. syntax_error(Message) --> [ '~w'-[Message] ]. dwim_predicates(Module:Name/_Arity, Dwims) :- !, findall(Dwim, dwim_predicate(Module:Name, Dwim), Dwims). dwim_predicates(Name/_Arity, Dwims) :- findall(Dwim, dwim_predicate(user:Name, Dwim), Dwims). dwim_message([]) --> []. dwim_message([user:Head|T]) --> !, {functor(Head, Name, Arity)}, [ ' ~w/~d'-[Name, Arity], nl ], dwim_message(T). dwim_message([Module:Head|T]) --> !, {functor(Head, Name, Arity)}, [ ' ~w:~w/~d'-[Module, Name, Arity], nl], dwim_message(T). dwim_message([Head|T]) --> {functor(Head, Name, Arity)}, [ ' ~w/~d'-[Name, Arity], nl], dwim_message(T). swi_message(io_error(Op, Stream)) --> [ 'I/O error in ~w on stream ~p'-[Op, Stream] ]. swi_message(shell(execute, Cmd)) --> [ 'Could not execute `~w'''-[Cmd] ]. swi_message(shell(signal(Sig), Cmd)) --> [ 'Caught signal ~d on `~w'''-[Sig, Cmd] ]. swi_message(format(Fmt, Args)) --> [ Fmt-Args ]. swi_message(signal(Name, Num)) --> [ 'Caught signal ~d (~w)'-[Num, Name] ]. swi_message(limit_exceeded(Limit, MaxVal)) --> [ 'Exceeded ~w limit (~w)'-[Limit, MaxVal] ]. swi_message(goal_failed(Goal)) --> [ 'goal (~p) failed'-[Goal] ]. swi_message(shared_object(_Action, Message)) --> % Message = dlerror() [ '~w'-[Message] ]. swi_message(system_error(Error)) --> [ 'error in system call: ~w'-[Error] ]. swi_message(system_error) --> [ 'error in system call' ]. swi_message(failure_error(Goal)) --> [ 'Goal failed: ~p'-[Goal] ]. swi_message(timeout_error(Op, Stream)) --> [ 'Timeout in ~w from ~p'-[Op, Stream] ]. swi_message(not_implemented(Type, What)) --> [ '~w `~p\' is not implemented in this version'-[Type, What] ]. swi_message(context_error(nodirective, Goal)) --> { goal_to_predicate_indicator(Goal, PI) }, [ 'Wrong context: ~p can only be used in a directive'-[PI] ]. swi_message(format_argument_type(Fmt, Arg)) --> [ 'Illegal argument to format sequence ~~~w: ~p'-[Fmt, Arg] ]. swi_message(format(Msg)) --> [ 'Format error: ~w'-[Msg] ]. swi_context(X) --> { var(X) }, !, []. swi_context(context(Caller, _Msg)) --> { ground(Caller) }, !, caller(Caller). swi_context(file(Path, Line, LinePos, _CharNo)) --> [ '~w:~d:~d: '-[Path, Line, LinePos] ]. swi_context(stream(Stream, Line, LinePos, _CharNo)) --> [ 'Stream ~w:~d:~d '-[Stream, LinePos, Line] ]. swi_context(_) --> []. caller(Module:Name/Arity) --> !, ( { \+ hidden_module(Module) } -> [ '~q:~q/~w: '-[Module, Name, Arity] ] ; [ '~q/~w: '-[Name, Arity] ] ). caller(Name/Arity) --> [ '~q/~w: '-[Name, Arity] ]. caller(Caller) --> [ '~p: '-[Caller] ]. swi_extra(X) --> { var(X) }, !, []. swi_extra(context(_, Msg)) --> { nonvar(Msg), Msg \== '' }, !, [ ' (~w)'-[Msg] ]. swi_extra(string(String, CharPos)) --> { sub_string(String, 0, CharPos, _, Before), sub_string(String, CharPos, _, 0, After) }, [ nl, '~w'-[Before], nl, '** here **', nl, '~w'-[After] ]. swi_extra(_) --> []. /******************************* * NORMAL MESSAGES * *******************************/ prolog_message(initialization_exception(Goal, E)) --> [ 'Initialization goal ~p raised exception:'-[Goal], nl ], translate_message(E). prolog_message(initialization_exception(E)) --> [ 'Prolog initialisation failed:', nl ], translate_message(E). prolog_message(unhandled_exception(E)) --> [ 'Unhandled exception: ' ], translate_message(E). prolog_message(goal_failed(Goal, Context)) --> [ 'Goal (~w) failed: ~p'-[Goal, Context] ]. prolog_message(no_current_module(Module)) --> [ '~w is not a current module (created)'-[Module] ]. prolog_message(commandline_arg_type(Flag, Arg)) --> [ 'Bad argument to commandline option -~w: ~w'-[Flag, Arg] ]. prolog_message(missing_feature(Name)) --> [ 'This version of SWI-Prolog does not support ~w'-[Name] ]. prolog_message(singletons(List)) --> [ 'Singleton variables: ~w'-[List] ]. prolog_message(multitons(List)) --> [ 'Singleton-marked variables appearing more than once: ~w'-[List] ]. prolog_message(profile_no_cpu_time) --> [ 'No CPU-time info. Check the SWI-Prolog manual for details' ]. prolog_message(non_ascii(Text, Type)) --> [ 'Unquoted ~w with non-portable characters: ~w'-[Type, Text] ]. prolog_message(io_warning(Stream, Message)) --> { stream_property(Stream, position(Position)), !, stream_position_data(line_count, Position, LineNo), stream_position_data(line_position, Position, LinePos), ( stream_property(Stream, file_name(File)) -> Obj = File ; Obj = Stream ) }, [ '~p:~d:~d: ~w'-[Obj, LineNo, LinePos, Message] ]. prolog_message(io_warning(Stream, Message)) --> [ 'stream ~p: ~w'-[Stream, Message] ]. /******************************* * LOADING FILES * *******************************/ prolog_message(modify_active_procedure(Who, What)) --> [ '~p: modified active procedure ~p'-[Who, What] ]. prolog_message(load_file(failed(user:File))) --> [ 'Failed to load ~p'-[File] ]. prolog_message(load_file(failed(Module:File))) --> [ 'Failed to load ~p into module ~p'-[File, Module] ]. prolog_message(load_file(failed(File))) --> [ 'Failed to load ~p'-[File] ]. prolog_message(mixed_directive(Goal)) --> [ 'Cannot pre-compile mixed load/call directive: ~p'-[Goal] ]. prolog_message(cannot_redefine_comma) --> [ 'Full stop in clause-body? Cannot redefine ,/2' ]. prolog_message(illegal_autoload_index(Dir, Term)) --> [ 'Illegal term in INDEX file of directory ~w: ~w'-[Dir, Term] ]. prolog_message(redefined_procedure(Type, Proc)) --> [ 'Redefined ~w procedure ~p'-[Type, Proc] ]. prolog_message(declare_module(Module, abolish(Predicates))) --> [ 'Loading module ~w abolished: ~p'-[Module, Predicates] ]. prolog_message(undefined_export(Module, PI)) --> [ 'Exported procedure ~q:~q is not defined'-[Module, PI] ]. prolog_message(discontiguous((-)/2)) --> prolog_message(minus_in_identifier). prolog_message(discontiguous(Proc)) --> [ 'Clauses of ~p are not together in the source-file'-[Proc] ]. prolog_message(load_file(start(Level, File))) --> [ '~|~t~*+Loading '-[Level] ], load_file(File), [ ' ...' ]. prolog_message(load_file(done(Level, File, Action, Module, Time, Heap))) --> [ '~|~t~*+'-[Level] ], load_file(File), [ ' ~w'-[Action] ], load_module(Module), [ ' ~2f sec, ~D bytes'-[Time, Heap] ]. prolog_message(dwim_undefined(Goal, Alternatives)) --> { goal_to_predicate_indicator(Goal, Pred) }, [ 'Undefined procedure: ~p'-[Pred], nl, ' However, there are definitions for:', nl ], dwim_message(Alternatives). prolog_message(dwim_correct(Into)) --> [ 'Correct to: ~w? '-[Into], flush ]. prolog_message(error(loop_error(Spec), file_search(Used))) --> [ 'File search: too many levels of indirections on: ~p'-[Spec], nl, ' Used alias expansions:', nl ], used_search(Used). prolog_message(minus_in_identifier) --> [ 'The "-" character should not be used to seperate words in an', nl, 'identifier. Check the SWI-Prolog FAQ for details.' ]. prolog_message(qlf(removed_after_error(File))) --> [ 'Removed incomplete QLF file ~w'-[File] ]. used_search([]) --> []. used_search([Alias=Expanded|T]) --> [ ' file_search_path(~p, ~p)'-[Alias, Expanded], nl ], used_search(T). load_file(file(Spec, _Path)) --> ( {atomic(Spec)} -> [ '~w'-[Spec] ] ; [ '~p'-[Spec] ] ). %load_file(file(_, Path)) --> % [ '~w'-[Path] ]. load_module(user) --> !. load_module(system) --> !. load_module(Module) --> [ ' into ~w'-[Module] ]. goal_to_predicate_indicator(Goal, PI) :- strip_module(Goal, Module, Head), functor(Head, Name, Arity), user_predicate_indicator(Module:Name/Arity, PI). user_predicate_indicator(Module:PI, PI) :- hidden_module(Module), !. user_predicate_indicator(PI, PI). hidden_module(user) :- !. hidden_module(system) :- !. hidden_module(M) :- sub_atom(M, 0, _, _, $). prolog_message(file_search(cache(Spec, _Cond), Path)) --> [ 'File search: ~p --> ~p (cache)'-[Spec, Path] ]. prolog_message(file_search(found(Spec, Cond), Path)) --> [ 'File search: ~p --> ~p OK ~p'-[Spec, Path, Cond] ]. prolog_message(file_search(tried(Spec, Cond), Path)) --> [ 'File search: ~p --> ~p NO ~p'-[Spec, Path, Cond] ]. /******************************* * GC * *******************************/ prolog_message(gc(start)) --> [ 'GC: ', flush ]. prolog_message(gc(done(G, T, Time, UG, UT, RG, RT))) --> [ at_same_line, 'gained ~D+~D in ~2f sec; used ~D+~D; free ~D+~D'- [G, T, Time, UG, UT, RG, RT] ]. prolog_message(agc(start)) --> { thread_self(Me) }, [ 'AGC: [~w] '-[Me], flush ]. prolog_message(agc(done(Collected, Remaining, Time))) --> [ at_same_line, 'reclaimed ~D atoms in ~2f sec. (remaining: ~D)'- [Collected, Time, Remaining] ]. /******************************* * MAKE/AUTOLOAD * *******************************/ prolog_message(make(reload(Files))) --> { length(Files, N) }, [ 'Make: reloading ~D files'-[N] ]. prolog_message(make(done(_Files))) --> [ 'Make: finished' ]. prolog_message(make(library_index(Dir))) --> [ 'Updating index for library ~w'-[Dir] ]. prolog_message(autoload(Pred, File)) --> [ 'Autoloading ~p from ~w'-[Pred, File] ]. prolog_message(autoload(read_index(Dir))) --> [ 'Loading autoload index for ~w'-[Dir] ]. /******************************* * TOPLEVEL MESSAGES * *******************************/ prolog_message(version) --> { current_prolog_flag(version, Version), Major is Version // 10000, Minor is (Version // 100) mod 100, Patch is Version mod 100 }, [ '~w.~w.~w'-[Major, Minor, Patch] ]. prolog_message(threads) --> { current_prolog_flag(threads, true) }, !, [ 'Multi-threaded, ' ]. prolog_message(threads) --> []. prolog_message(copyright) --> [ 'Copyright (c) 1990-2007 University of Amsterdam.', nl, 'SWI-Prolog comes with ABSOLUTELY NO WARRANTY. This is free software,', nl, 'and you are welcome to redistribute it under certain conditions.', nl, 'Please visit http://www.swi-prolog.org for details.' ]. prolog_message(author) --> [ 'Jan Wielemaker (jan@swi-prolog.org)' ]. prolog_message(welcome) --> [ 'Welcome to SWI-Prolog (' ], prolog_message(threads), ['Version ' ], prolog_message(version), [ ')', nl ], prolog_message(copyright), [ nl, nl, 'For help, use ?- help(Topic). or ?- apropos(Word).', nl, nl ]. prolog_message(about) --> [ 'SWI-Prolog version ' ], prolog_message(version), [ ' by ' ], prolog_message(author), [ nl ], prolog_message(copyright). prolog_message(halt) --> [ 'halt' ]. prolog_message(break(enter(Level))) --> [ 'Break level ~d'-[Level] ]. prolog_message(break(exit(Level))) --> [ nl, 'Exit break level ~d'-[Level] ]. prolog_message(var_query(_)) --> [ '... 1,000,000 ............ 10,000,000 years later', nl, nl, '~t~8|>> 42 << (last release gives the question)' ]. prolog_message(close_on_abort(Stream)) --> [ 'Abort: closed stream ~p'-[Stream] ]. prolog_message(query(no)) --> [ nl, 'No' ]. prolog_message(query(yes)) --> [ nl, 'Yes' ]. prolog_message(query(yes, [])) --> [ 'More? ', flush ]. prolog_message(query(yes, Bindings)) --> bindings(Bindings), [ ' ', flush ]. prolog_message(query(eof)) --> [ nl ]. bindings([]) --> []. bindings([Name = Value|T]) --> { current_prolog_flag(toplevel_print_options, Options), ( T == [] -> Cont = '' ; Cont = (,) ) }, [ nl, '~w = ~W~w'-[Name, Value, Options, Cont] ], bindings(T). prolog_message(query(help)) --> [ nl, 'Actions:', nl, nl, '; (n, r): redo t: trace & redo', nl, 'b: break c (a, RET, space): continue', nl, 'w: write p print', nl, 'h (?): help', nl, nl ]. prolog_message(query(action)) --> [ 'Action? ', flush ]. prolog_message(if_tty(Text)) --> ( {current_prolog_flag(tty_control, true)} -> [ at_same_line, '~w'-[Text] ] ; [] ). prolog_message(halt(Reason)) --> [ '~w: halt'-[Reason] ]. prolog_message(no_action(Char)) --> [ 'Unknown action: ~c (h for help)'-[Char], nl ]. prolog_message(query(confirm)) --> [ 'Please answer \'y\' or \'n\'? ', flush ]. prolog_message(history(help(Show, Help))) --> [ 'History Commands:', nl, ' !!. Repeat last query', nl, ' !nr. Repeat query numbered ', nl, ' !str. Repeat last query starting with ', nl, ' !?str. Repeat last query holding ', nl, ' ^old^new. Substitute into of last query', nl, ' !nr^old^new. Substitute in query numbered ', nl, ' !str^old^new. Substitute in query starting with ', nl, ' !?str^old^new. Substitute in query holding ', nl, ' ~w.~21|Show history list'-[Show], nl, ' ~w.~21|Show this list'-[Help], nl, nl ]. prolog_message(history(no_event)) --> [ '! No such event' ]. prolog_message(history(bad_substitution)) --> [ '! Bad substitution' ]. prolog_message(history(expanded(Event))) --> [ '~w.'-[Event] ]. prolog_message(history(history(Events))) --> history_events(Events). history_events([]) --> []. history_events([Nr/Event|T]) --> [ '~t~w ~8|~w.'-[Nr, Event], nl ], history_events(T). /******************************* * DEBUGGER MESSAGES * *******************************/ prolog_message(spy(Head)) --> { goal_to_predicate_indicator(Head, Pred) }, [ 'Spy point on ~p'-[Pred] ]. prolog_message(nospy(Head)) --> { goal_to_predicate_indicator(Head, Pred) }, [ 'Spy point removed from ~p'-[Pred] ]. prolog_message(trace_mode(Bool)) --> [ 'Trace mode switched to ~w'-[Bool] ]. prolog_message(debug_mode(Bool)) --> [ 'Debug mode switched to ~w'-[Bool] ]. prolog_message(debugging(Bool)) --> [ 'Debug mode is ~w'-[Bool] ]. prolog_message(spying([])) --> !, [ 'No spy points' ]. prolog_message(spying(Heads)) --> [ 'Spy points (see spy/1) on:', nl ], predicate_list(Heads). prolog_message(trace(Head, [])) --> !, { goal_to_predicate_indicator(Head, Pred) }, [ ' ~p: Not tracing'-[Pred], nl]. prolog_message(trace(Head, Ports)) --> { goal_to_predicate_indicator(Head, Pred) }, [ ' ~p: ~w'-[Pred, Ports], nl]. prolog_message(tracing([])) --> !, [ 'No traced predicates (see trace/1)' ]. prolog_message(tracing(Heads)) --> [ 'Trace points (see trace/1) on:', nl ], tracing_list(Heads). predicate_list([]) --> % TBD: Share with dwim, etc. []. predicate_list([H|T]) --> { goal_to_predicate_indicator(H, Pred) }, [ ' ~p'-[Pred], nl], predicate_list(T). tracing_list([]) --> []. tracing_list([trace(Head, Ports)|T]) --> translate_message(trace(Head, Ports)), tracing_list(T). prolog_message(frame(Frame, backtrace, _PC)) --> !, { prolog_frame_attribute(Frame, level, Level) }, [ '~t[~D] ~10|'-[Level] ], frame_context(Frame), frame_goal(Frame). prolog_message(frame(Frame, choice, PC)) --> !, prolog_message(frame(Frame, backtrace, PC)). prolog_message(frame(_, cut_call, _)) --> !, []. prolog_message(frame(Frame, trace(Port), _PC)) --> !, [ ' T ' ], port(Port), frame_level(Frame), frame_context(Frame), frame_goal(Frame). prolog_message(frame(Frame, Port, _PC)) --> frame_flags(Frame), port(Port), frame_level(Frame), frame_context(Frame), frame_depth_limit(Port, Frame), frame_goal(Frame), [ flush ]. frame_goal(Frame) --> { prolog_frame_attribute(Frame, goal, Goal0), clean_goal(Goal0, Goal), current_prolog_flag(debugger_print_options, Options) }, [ '~W'-[Goal, Options] ]. frame_level(Frame) --> { prolog_frame_attribute(Frame, level, Level) }, [ '(~D) '-[Level] ]. frame_context(Frame) --> ( { current_prolog_flag(debugger_show_context, true), prolog_frame_attribute(Frame, context_module, Context) } -> [ '[~w] '-[Context] ] ; [] ). frame_depth_limit(fail, Frame) --> { prolog_frame_attribute(Frame, depth_limit_exceeded, true) }, !, [ '[depth-limit exceeded] ' ]. frame_depth_limit(_, _) --> []. frame_flags(Frame) --> { prolog_frame_attribute(Frame, goal, Goal), ( predicate_property(Goal, transparent) -> T = '^' ; T = ' ' ), ( predicate_property(Goal, spying) -> S = '*' ; S = ' ' ) }, [ '~w~w '-[T, S] ]. port(Port) --> { port_name(Port, Name) }, !, [ '~w: '-[Name] ]. port_name(call, 'Call'). port_name(exit, 'Exit'). port_name(fail, 'Fail'). port_name(redo, 'Redo'). port_name(unify, 'Unify'). port_name(exception, 'Exception'). clean_goal(M:Goal, Goal) :- hidden_module(M), !. clean_goal(M:Goal, Goal) :- predicate_property(M:Goal, built_in), !. clean_goal(Goal, Goal). /******************************* * COMPATIBILITY * *******************************/ prolog_message(compatibility(renamed(Old, New))) --> [ 'The predicate ~p has been renamed to ~p.'-[Old, New], nl, 'Please update your sources for compatibility with future versions.' ]. /******************************* * THREADS * *******************************/ prolog_message(abnormal_thread_completion(Goal, exception(Ex))) --> !, [ 'Thread running "~p" died on exception: '-[Goal] ], translate_message(Ex). prolog_message(abnormal_thread_completion(Goal, fail)) --> [ 'Thread running "~p" died due to failure'-[Goal] ]. prolog_message(threads_not_died(Count)) --> [ '~D threads wouldn\'t die'-[Count] ]. /******************************* * PRINTING MESSAGES * *******************************/ :- multifile user:message_hook/3. :- dynamic user:message_hook/3. % print_message(+Kind, +Term) % % Print an error message using a term as generated by the exception % system. print_message(Level, Term) :- ( must_print(Level, Term) -> ( translate_message(Term, Lines, []) -> ( nonvar(Term), notrace(user:message_hook(Term, Level, Lines)) -> true ; print_system_message(Term, Level, Lines) ) ) ; true ). % print_system_message(+Term, +Level, +Lines) % % Print the message if the user did not intecept the message. % The first is used for errors and warnings that can be related % to source-location. Note that syntax errors have their own % source-location and should therefore not be handled this way. print_system_message(_, silent, _) :- !. print_system_message(_, informational, _) :- current_prolog_flag(verbose, silent), !. print_system_message(_, banner, _) :- current_prolog_flag(verbose, silent), !. print_system_message(Term, Level, Lines) :- flush_output(user_output), source_location(File, Line), Term \= error(syntax_error(_), _), prefix(Level, Prefix, LinePrefix, PostFix, Wait, Stream), !, format(Stream, Prefix, [File, Line]), print_message_lines(Stream, LinePrefix, Lines), format(Stream, PostFix, []), ( Wait > 0 -> sleep(Wait) ; true ). print_system_message(_, Level, Lines) :- flush_output(user_output), prefix(Level, LinePrefix, Stream), !, print_message_lines(Stream, LinePrefix, Lines). prefix(error, 'ERROR: (~w:~d):~n', '\t', '', 0.5, user_error). prefix(warning, 'Warning: (~w:~d):~n', '\t', '', 0, user_error). prefix(help, '', user_error). prefix(query, '', user_error). prefix(debug, '', user_output). prefix(warning, Prefix, user_error) :- thread_self(Id), ( Id == main -> Prefix = 'Warning: ' ; concat_atom(['Warning: [Thread ', Id, '] '], Prefix) ). prefix(error, Prefix, user_error) :- thread_self(Id), ( Id == main -> Prefix = 'ERROR: ' ; concat_atom(['ERROR: [Thread ', Id, '] '], Prefix) ). prefix(banner, '', user_error). prefix(informational, '% ', user_error). % print_message_lines(+Stream, +Prefix, +Lines) % % Quintus compatibility predicate to print message lines using % a prefix. print_message_lines(_, _, []) :- !. print_message_lines(S, P, [at_same_line|Lines]) :- !, print_message_line(S, Lines, Rest), print_message_lines(S, P, Rest). print_message_lines(S, P, Lines) :- atom_concat('~N', P, Prefix), format(S, Prefix, []), print_message_line(S, Lines, Rest), print_message_lines(S, P, Rest). print_message_line(S, [flush], []) :- !, flush_output(S). print_message_line(S, [], []) :- !, nl(S). print_message_line(S, [nl|T], T) :- !, nl(S). print_message_line(S, [Fmt-Args|T0], T) :- !, format(S, Fmt, Args), print_message_line(S, T0, T). print_message_line(S, [Fmt|T0], T) :- format(S, Fmt, []), print_message_line(S, T0, T). % message_to_string(+Term, -String) % % Translate an error term into a string message_to_string(Term, Str) :- translate_message(Term, Actions, []), !, actions_to_format(Actions, Fmt, Args), format(string(Str), Fmt, Args). actions_to_format([], '', []) :- !. actions_to_format([nl], '', []) :- !. actions_to_format([Term, nl], Fmt, Args) :- !, actions_to_format([Term], Fmt, Args). actions_to_format([nl|T], Fmt, Args) :- !, actions_to_format(T, Fmt0, Args), atom_concat('~n', Fmt0, Fmt). actions_to_format([Fmt0-Args0|Tail], Fmt, Args) :- !, actions_to_format(Tail, Fmt1, Args1), atom_concat(Fmt0, Fmt1, Fmt), $append(Args0, Args1, Args). actions_to_format([Term|Tail], Fmt, Args) :- atomic(Term), !, actions_to_format(Tail, Fmt1, Args), atom_concat(Term, Fmt1, Fmt). actions_to_format([Term|Tail], Fmt, Args) :- actions_to_format(Tail, Fmt1, Args1), atom_concat('~w', Fmt1, Fmt), $append([Term], Args1, Args). /******************************* * MESSAGES TO PRINT ONCE * *******************************/ :- dynamic printed/2. % print_once(Message, Level) % % True for messages that must be printed only once. print_once(compatibility(_), _). % must_print(+Level, +Message) % % True if the message must be printed. must_print(Level, Message) :- nonvar(Message), print_once(Message, Level), !, \+ printed(Message, Level), assert(printed(Message, Level)). must_print(_, _).