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yap-6.3/pl/boot.yap

1240 lines
31 KiB
Prolog
Executable File

/*************************************************************************
* *
* YAP Prolog *
* *
* Yap Prolog was developed at NCCUP - Universidade do Porto *
* *
* Copyright L.Damas, V.S.Costa and Universidade do Porto 1985-1997 *
* *
**************************************************************************
* *
* File: boot.yap *
* Last rev: 8/2/88 *
* mods: *
* comments: boot file for Prolog *
* *
*************************************************************************/
%
%
%
true :- true.
'$live' :-
'$init_system',
'$do_live'.
'$init_prolog' :-
'$init_system'.
'$do_live' :-
repeat,
'$current_module'(Module),
( Module==user ->
'$compile_mode'(_,0)
;
format(user_error,'[~w]~n', [Module])
),
'$system_catch'('$enter_top_level',Module,Error,user:'$Error'(Error)).
'$init_system' :-
get_value('$yap_inited', true), !.
'$init_system' :-
set_value('$yap_inited', true),
% do catch as early as possible
(
'$access_yap_flags'(15, 0),
'$access_yap_flags'(22, 0),
\+ '$uncaught_throw'
->
'$version'
;
true
),
(
'$access_yap_flags'(22, 0) ->
'$swi_set_prolog_flag'(verbose, normal)
;
'$swi_set_prolog_flag'(verbose, silent)
),
% '$init_preds', % needs to be done before library_directory
% (
% retractall(user:library_directory(_)),
% '$system_library_directories'(D),
% assertz(user:library_directory(D)),
% fail
% ;
% true
% ),
'$init_globals',
'$swi_set_prolog_flag'(fileerrors, true),
set_value('$gc',on),
('$exit_undefp' -> true ; true),
prompt1(' ?- '),
'$swi_set_prolog_flag'(debug, false),
% simple trick to find out if this is we are booting from Prolog.
% boot from a saved state
(
'$undefined'('$init_preds',prolog)
->
true
;
'$init_state'
),
'$db_clean_queues'(0),
% this must be executed from C-code.
% '$startup_saved_state',
set_input(user_input),
set_output(user_output),
'$init_or_threads',
'$run_at_thread_start'.
'$init_globals' :-
'$init_consult',
% '$swi_set_prolog_flag'(break_level, 0),
% '$set_read_error_handler'(error), let the user do that
nb_setval('$chr_toplevel_show_store',false).
'$init_consult' :-
set_value('$open_expands_filename',true),
nb_setval('$assert_all',off),
nb_setval('$if_level',0),
nb_setval('$endif',off),
nb_setval('$initialization_goals',off),
nb_setval('$included_file',[]),
\+ '$undefined'('$init_preds',prolog),
'$init_preds',
fail.
'$init_consult' :-
retractall(user:library_directory(_)),
% make sure library_directory is open.
\+ clause(user:library_directory(_),_),
'$system_library_directories'(D),
assert(user:library_directory(D)),
fail.
'$init_consult'.
'$init_or_threads' :-
'$c_yapor_workers'(W), !,
'$start_orp_threads'(W).
'$init_or_threads'.
'$start_orp_threads'(1) :- !.
'$start_orp_threads'(W) :-
thread_create('$c_worker',_,[detached(true)]),
W1 is W-1,
'$start_orp_threads'(W1).
% Start file for yap
/* I/O predicates */
/* meaning of flags for '$write' is
1 quote illegal atoms
2 ignore operator declarations
4 output '$VAR'(N) terms as A, B, C, ...
8 use portray(_)
*/
/* main execution loop */
'$read_toplevel'(Goal, Bindings) :-
'$pred_exists'(read_history(_,_,_,_,_,_), user),
'$swi_current_prolog_flag'(readline, true), !,
read_history(h, '!h',
[trace, end_of_file],
Prompt, Goal, Bindings), !,
(nonvar(Err) ->
print_message(error,Err), fail
;
true
).
'$read_toplevel'(Goal, Bindings) :-
prompt1('?- '),
prompt(_,'|: '),
'$system_catch'('$raw_read'(user_input, Line), prolog, E,
(print_message(error, E),
'$handle_toplevel_error'(Line, E))),
(
current_predicate(_, user:rl_add_history(_))
->
format(atom(CompleteLine), '~W~W',
[ Line, [partial(true)],
'.', [partial(true)]
]),
call(user:rl_add_history(CompleteLine))
;
true
),
'$system_catch'(
atom_to_term(Line, Goal, Bindings), prolog, E,
( print_message(error, E),
fail
)
), !.
'$handle_toplevel_error'(_, syntax_error(_)) :- !, fail.
'$handle_toplevel_error'(end_of_file, error(io_error(read,user_input),_)) :- !.
'$handle_toplevel_error'(_, E) :-
throw(E).
% reset alarms when entering top-level.
'$enter_top_level' :-
'$alarm'(0, 0, _, _),
fail.
'$enter_top_level' :-
'$clean_up_dead_clauses',
fail.
'$enter_top_level' :-
'$swi_current_prolog_flag'(break_level, BreakLevel),
'$swi_current_prolog_flag'(debug, DBON),
(
'$nb_getval'('$trace', on, fail)
->
TraceDebug = trace
;
DBON == true
->
TraceDebug = debug
;
true
),
print_message(informational,prompt(BreakLevel,TraceDebug)),
fail.
'$enter_top_level' :-
get_value('$top_level_goal',GA), GA \= [], !,
set_value('$top_level_goal',[]),
'$run_atom_goal'(GA),
'$swi_current_prolog_flag'(break_level, BreakLevel),
( Breaklevel \= 0 -> true ; '$pred_exists'(halt(_), user) -> halt(0) ; '$halt'(0) ).
'$enter_top_level' :-
'$run_toplevel_hooks',
prompt1(' ?- '),
'$read_toplevel'(Command,Varnames),
nb_setval('$spy_gn',1),
% stop at spy-points if debugging is on.
nb_setval('$debug_run',off),
nb_setval('$debug_jump',off),
'$command'(Command,Varnames,_Pos,top),
'$swi_current_prolog_flag'(break_level, BreakLevel),
( BreakLevel \= 0 -> true ; '$pred_exists'(halt(_), user) -> halt(0) ; '$halt'(0) ).
'$erase_sets' :-
eraseall('$'),
eraseall('$$set'),
eraseall('$$one'),
eraseall('$reconsulted'), fail.
'$erase_sets' :- \+ recorded('$path',_,_), recorda('$path',"",_).
'$erase_sets'.
'$version' :-
get_value('$version_name',VersionName),
print_message(help, version(VersionName)),
get_value('$myddas_version_name',MYDDASVersionName),
MYDDASVersionName \== [],
print_message(help, myddas_version(MYDDASVersionName)),
fail.
'$version' :-
recorded('$version',VersionName,_),
print_message(help, VersionName),
fail.
'$version'.
repeat :- '$repeat'.
'$repeat'.
'$repeat'.
'$repeat'.
'$repeat'.
'$repeat'.
'$repeat'.
'$repeat'.
'$repeat'.
'$repeat'.
'$repeat' :- '$repeat'.
'$start_corouts' :-
recorded('$corout','$corout'(Name,_,_),R),
Name \= main,
finish_corout(R),
fail.
'$start_corouts' :-
eraseall('$corout'),
eraseall('$result'),
eraseall('$actual'),
fail.
'$start_corouts' :- recorda('$actual',main,_),
recordz('$corout','$corout'(main,main,'$corout'([],[],[],[],[],[],[],[],[],[],[],[],[],[],[],[],[],[],[])),_Ref),
recorda('$result',going,_).
'$command'(C,VL,Pos,Con) :-
'$access_yap_flags'(9,1), !,
'$execute_command'(C,VL,Pos,Con,C).
'$command'(C,VL,Pos,Con) :-
( (Con = top ; var(C) ; C = [_|_]) ->
'$execute_command'(C,VL,Pos,Con,C), ! ;
% do term expansion
expand_term(C, EC),
% execute a list of commands
'$execute_commands'(EC,VL,Pos,Con,C),
% succeed only if the *original* was at end of file.
C == end_of_file
).
%
% Hack in case expand_term has created a list of commands.
%
'$execute_commands'(V,_,_,_,Source) :- var(V), !,
'$do_error'(instantiation_error,meta_call(Source)).
'$execute_commands'([],_,_,_,_) :- !.
'$execute_commands'([C|Cs],VL,Pos,Con,Source) :- !,
(
'$system_catch'('$execute_command'(C,VL,Pos,Con,C),prolog,Error,user:'$LoopError'(Error, Con)),
fail
;
'$execute_commands'(Cs,VL,Pos,Con,Source)
).
'$execute_commands'(C,VL,Pos,Con,Source) :-
'$execute_command'(C,VL,Pos,Con,Source).
%
%
%
'$execute_command'(C,_,_,top,Source) :- var(C), !,
'$do_error'(instantiation_error,meta_call(Source)).
'$execute_command'(C,_,_,top,Source) :- number(C), !,
'$do_error'(type_error(callable,C),meta_call(Source)).
'$execute_command'(R,_,_,top,Source) :- db_reference(R), !,
'$do_error'(type_error(callable,R),meta_call(Source)).
'$execute_command'(end_of_file,_,_,_,_) :- !.
'$execute_command'(Command,_,_,_,_) :-
'$nb_getval'('$if_skip_mode', skip, fail),
\+ '$if_directive'(Command),
!.
'$execute_command'((:-G),VL,Pos,Option,_) :-
% !,
Option \= top, !,
'$current_module'(M),
% allow user expansion
expand_term((:- G), O),
(
O = (:- G1)
->
'$process_directive'(G1, Option, M, VL, Pos)
;
'$execute_commands'(O,VL,Pos,Option,O)
).
'$execute_command'((?-G), V, Pos, Option, Source) :-
Option \= top, !,
'$execute_command'(G, V, Pos, top, Source).
'$execute_command'(G, V, Pos, Option, Source) :-
'$continue_with_command'(Option, V, Pos, G, Source).
%
% This command is very different depending on the language mode we are in.
%
% ISO only wants directives in files
% SICStus accepts everything in files
% YAP accepts everything everywhere
%
'$process_directive'(G, top, M, VL, Pos) :-
'$access_yap_flags'(8, 0), !, % YAP mode, go in and do it,
'$process_directive'(G, consult, M, VL, Pos).
'$process_directive'(G, top, _, _, _) :- !,
'$do_error'(context_error((:- G),clause),query).
%
% allow modules
%
'$process_directive'(M:G, Mode, _, VL, Pos) :- !,
'$process_directive'(G, Mode, M, VL, Pos).
%
% default case
%
'$process_directive'(Gs, Mode, M, VL, Pos) :-
'$all_directives'(Gs), !,
'$exec_directives'(Gs, Mode, M, VL, Pos).
%
% ISO does not allow goals (use initialization).
%
'$process_directive'(D, _, M, VL, Pos) :-
'$access_yap_flags'(8, 1), !, % ISO Prolog mode, go in and do it,
'$do_error'(context_error((:- M:D),query),directive).
%
% but YAP and SICStus does.
%
'$process_directive'(G, _, M, VL, Pos) :-
( '$execute'(M:G) -> true ; format(user_error,':- ~w:~w failed.~n',[M,G]) ).
'$continue_with_command'(Where,V,'$stream_position'(C,_P,A1,A2,A3),'$source_location'(_F,L):G,Source) :- !,
'$continue_with_command'(Where,V,'$stream_position'(C,L,A1,A2,A3),G,Source).
'$continue_with_command'(reconsult,V,Pos,G,Source) :-
'$go_compile_clause'(G,V,Pos,5,Source),
fail.
'$continue_with_command'(consult,V,Pos,G,Source) :-
'$go_compile_clause'(G,V,Pos,13,Source),
fail.
'$continue_with_command'(top,V,_,G,_) :-
'$query'(G,V).
%
% not 100% compatible with SICStus Prolog, as SICStus Prolog would put
% module prefixes all over the place, although unnecessarily so.
%
'$go_compile_clause'(G,V,Pos,N,Source) :-
'$current_module'(Mod),
'$go_compile_clause'(G,V,Pos,N,Mod,Mod,Source).
'$go_compile_clause'(G,_,_,_,_,_,Source) :-
var(G), !,
'$do_error'(instantiation_error,assert(Source)).
'$go_compile_clause'((G:-_),_,_,_,_,_,Source) :-
var(G), !,
'$do_error'(instantiation_error,assert(Source)).
'$go_compile_clause'(M:G,V,Pos,N,_,_,Source) :- !,
'$go_compile_clause'(G,V,Pos,N,M,M,Source).
'$go_compile_clause'((M:H :- B),V,Pos,N,_,BodyMod,Source) :- !,
'$go_compile_clause'((H :- B),V,Pos,N,M,BodyMod,Source).
'$go_compile_clause'(G,V,Pos,N,HeadMod,BodyMod,Source) :- !,
'$prepare_term'(G, V, Pos, G0, G1, BodyMod, HeadMod, Source),
'$$compile'(G1, G0, N, HeadMod).
'$prepare_term'(G, V, Pos, G0, G1, BodyMod, SourceMod, Source) :-
(
get_value('$syntaxcheckflag',on)
->
'$check_term'(Source, G, V, Pos, BodyMod)
;
true
),
'$precompile_term'(G, G0, G1, BodyMod, SourceMod).
% process an input clause
'$$compile'(G, G0, L, Mod) :-
'$head_and_body'(G,H,_),
'$flags'(H, Mod, Fl, Fl),
is(NFl, /\, Fl, 0x00002000),
(
NFl \= 0
->
'$assertz_dynamic'(L,G,G0,Mod)
;
'$nb_getval'('$assert_all',on,fail)
->
functor(H,N,A),
'$dynamic'(N/A,Mod),
'$assertz_dynamic'(L,G,G0,Mod)
;
'$not_imported'(H, Mod),
'$compile'(G, L, G0, Mod)
).
%
% check if current module redefines an imported predicate.
% and remove import.
%
'$not_imported'(H, Mod) :-
recorded('$import','$import'(NM,Mod,NH,H,_,_),R),
NM \= Mod,
functor(NH,N,Ar),
print_message(warning,redefine_imported(Mod,NM,N/Ar)),
erase(R),
fail.
'$not_imported'(_, _).
'$check_if_reconsulted'(N,A) :-
once(recorded('$reconsulted',N/A,_)),
recorded('$reconsulted',X,_),
( X = N/A , !;
X = '$', !, fail;
fail
).
'$inform_as_reconsulted'(N,A) :-
recorda('$reconsulted',N/A,_).
'$clear_reconsulting' :-
recorded('$reconsulted',X,Ref),
erase(Ref),
X == '$', !,
( recorded('$reconsulting',_,R) -> erase(R) ).
'$prompt_alternatives_on'(determinism).
/* Executing a query */
'$query'(end_of_file,_).
'$query'(G,[]) :-
'$prompt_alternatives_on'(OPT),
( OPT = groundness ; OPT = determinism), !,
'$yes_no'(G,(?-)).
'$query'(G,V) :-
(
'$current_choice_point'(CP),
'$current_module'(M),
'$user_call'(G, M),
'$current_choice_point'(NCP),
'$delayed_goals'(G, V, NV, LGs, DCP),
'$write_answer'(NV, LGs, Written),
'$write_query_answer_true'(Written),
(
'$prompt_alternatives_on'(determinism), CP == NCP, DCP = 0
->
format(user_error, '.~n', []),
!
;
'$another',
!
),
fail
;
'$out_neg_answer'
).
'$yes_no'(G,C) :-
'$current_module'(M),
'$do_yes_no'(G,M),
'$delayed_goals'(G, [], NV, LGs, _),
'$write_answer'(NV, LGs, Written),
( Written = [] ->
!,'$present_answer'(C, true)
;
'$another', !
),
fail.
'$yes_no'(_,_) :-
'$out_neg_answer'.
'$add_env_and_fail' :- fail.
%
% *-> at this point would require compiler support, which does not exist.
%
'$delayed_goals'(G, V, NV, LGs, NCP) :-
(
CP is '$last_choice_pt',
'$current_choice_point'(NCP1),
'$attributes':delayed_goals(G, V, NV, LGs),
'$current_choice_point'(NCP2),
'$clean_ifcp'(CP),
NCP is NCP2-NCP1
;
copy_term_nat(V, NV),
LGs = [],
NCP = 0
).
'$out_neg_answer' :-
( '$undefined'(print_message(_,_),prolog) ->
'$present_answer'(user_error,'false.~n', [])
;
print_message(help,false)
),
fail.
'$do_yes_no'([X|L], M) :-
!,
'$csult'([X|L], M).
'$do_yes_no'(G, M) :-
'$user_call'(G, M).
'$write_query_answer_true'([]) :- !,
format(user_error,'true',[]).
'$write_query_answer_true'(_).
%
% present_answer has three components. First it flushes the streams,
% then it presents the goals, and last it shows any goals frozen on
% the arguments.
%
'$present_answer'(_,_):-
flush_output,
fail.
'$present_answer'((?-), Answ) :-
'$swi_current_prolog_flag'(break_level, BL ),
( BL \= 0 -> format(user_error, '[~p] ',[BL]) ;
true ),
( recorded('$print_options','$toplevel'(Opts),_) ->
write_term(user_error,Answ,Opts) ;
format(user_error,'~w',[Answ])
),
format(user_error,'.~n', []).
'$another' :-
format(user_error,' ? ',[]),
get0(user_input,C),
'$do_another'(C).
'$do_another'(C) :-
( C== 0'; -> skip(user_input,10), %'
% '$add_nl_outside_console',
fail
;
C== 10 -> '$add_nl_outside_console',
( '$undefined'(print_message(_,_),prolog) ->
format(user_error,'yes~n', [])
;
print_message(help,yes)
)
;
C== 13 ->
get0(user_input,NC),
'$do_another'(NC)
;
C== -1 -> halt
;
skip(user_input,10), '$ask_again_for_another'
).
%'$add_nl_outside_console' :-
% '$is_same_tty'(user_input, user_error), !.
'$add_nl_outside_console' :-
format(user_error,'~n',[]).
'$ask_again_for_another' :-
format(user_error,'Action (\";\" for more choices, <return> for exit)', []),
'$another'.
'$write_answer'(_,_,_) :-
flush_output,
fail.
'$write_answer'(Vs, LBlk, FLAnsw) :-
'$purge_dontcares'(Vs,IVs),
'$sort'(IVs, NVs),
'$prep_answer_var_by_var'(NVs, LAnsw, LBlk),
'$name_vars_in_goals'(LAnsw, Vs, NLAnsw),
'$write_vars_and_goals'(NLAnsw, first, FLAnsw).
'$purge_dontcares'([],[]).
'$purge_dontcares'([Name=_|Vs],NVs) :-
atom_codes(Name, [C|_]), C is "_", !,
'$purge_dontcares'(Vs,NVs).
'$purge_dontcares'([V|Vs],[V|NVs]) :-
'$purge_dontcares'(Vs,NVs).
'$prep_answer_var_by_var'([], L, L).
'$prep_answer_var_by_var'([Name=Value|L], LF, L0) :-
'$delete_identical_answers'(L, Value, NL, Names),
'$prep_answer_var'([Name|Names], Value, LF, LI),
'$prep_answer_var_by_var'(NL, LI, L0).
% fetch all cases that have the same solution.
'$delete_identical_answers'([], _, [], []).
'$delete_identical_answers'([(Name=Value)|L], Value0, FL, [Name|Names]) :-
Value == Value0, !,
'$delete_identical_answers'(L, Value0, FL, Names).
'$delete_identical_answers'([VV|L], Value0, [VV|FL], Names) :-
'$delete_identical_answers'(L, Value0, FL, Names).
% now create a list of pairs that will look like goals.
'$prep_answer_var'(Names, Value, LF, L0) :- var(Value), !,
'$prep_answer_unbound_var'(Names, LF, L0).
'$prep_answer_var'(Names, Value, [nonvar(Names,Value)|L0], L0).
% ignore unbound variables
'$prep_answer_unbound_var'([_], L, L) :- !.
'$prep_answer_unbound_var'(Names, [var(Names)|L0], L0).
'$gen_name_string'(I,L,[C|L]) :- I < 26, !, C is I+65.
'$gen_name_string'(I,L0,LF) :-
I1 is I mod 26,
I2 is I // 26,
C is I1+65,
'$gen_name_string'(I2,[C|L0],LF).
'$write_vars_and_goals'([], _, []).
'$write_vars_and_goals'([nl,G1|LG], First, NG) :- !,
nl(user_error),
'$write_goal_output'(G1, First, NG, Next, IG),
'$write_vars_and_goals'(LG, Next, IG).
'$write_vars_and_goals'([G1|LG], First, NG) :-
'$write_goal_output'(G1, First, NG, Next, IG),
'$write_vars_and_goals'(LG, Next, IG).
'$goal_to_string'(Format, G, String) :-
format(codes(String),Format,G).
'$write_goal_output'(var([V|VL]), First, [var([V|VL])|L], next, L) :- !,
( First = first -> true ; format(user_error,',~n',[]) ),
format(user_error,'~a',[V]),
'$write_output_vars'(VL).
'$write_goal_output'(nonvar([V|VL],B), First, [nonvar([V|VL],B)|L], next, L) :- !,
( First = first -> true ; format(user_error,',~n',[]) ),
format(user_error,'~a',[V]),
'$write_output_vars'(VL),
format(user_error,' = ', []),
( recorded('$print_options','$toplevel'(Opts),_) ->
write_term(user_error,B,[priority(699)|Opts]) ;
write_term(user_error,B,[priority(699)])
).
'$write_goal_output'(nl, First, NG, First, NG) :- !,
format(user_error,'~n',[]).
'$write_goal_output'(Format-G, First, NG, Next, IG) :- !,
G = [_|_], !,
% dump on string first so that we can check whether we actually
% had any output from the solver.
'$goal_to_string'(Format, G, String),
( String == [] ->
% we didn't
IG = NG, First = Next
;
% we did
( First = first -> true ; format(user_error,',~n',[]) ),
format(user_error, '~s', [String]),
NG = [G|IG]
).
'$write_goal_output'(_-G, First, [G|NG], next, NG) :- !,
( First = first -> true ; format(user_error,',~n',[]) ),
( recorded('$print_options','$toplevel'(Opts),_) ->
write_term(user_error,G,Opts) ;
format(user_error,'~w',[G])
).
'$write_goal_output'(_M:G, First, [G|NG], next, NG) :- !,
( First = first -> true ; format(user_error,',~n',[]) ),
( recorded('$print_options','$toplevel'(Opts),_) ->
write_term(user_error,G,Opts) ;
format(user_error,'~w',[G])
).
'$write_goal_output'(G, First, [M:G|NG], next, NG) :-
'$current_module'(M),
( First = first -> true ; format(user_error,',~n',[]) ),
( recorded('$print_options','$toplevel'(Opts),_) ->
write_term(user_error,G,Opts) ;
format(user_error,'~w',[G])
).
'$name_vars_in_goals'(G, VL0, G) :-
'$name_well_known_vars'(VL0),
'$variables_in_term'(G, [], GVL),
'$name_vars_in_goals1'(GVL, 0, _).
'$name_well_known_vars'([]).
'$name_well_known_vars'([Name=V|NVL0]) :-
var(V), !,
V = '$VAR'(Name),
'$name_well_known_vars'(NVL0).
'$name_well_known_vars'([_|NVL0]) :-
'$name_well_known_vars'(NVL0).
'$name_vars_in_goals1'([], I, I).
'$name_vars_in_goals1'(['$VAR'(Name)|NGVL], I0, IF) :-
I is I0+1,
'$gen_name_string'(I0,[],SName), !,
atom_codes(Name, [95|SName]),
'$name_vars_in_goals1'(NGVL, I, IF).
'$name_vars_in_goals1'([NV|NGVL], I0, IF) :-
nonvar(NV),
'$name_vars_in_goals1'(NGVL, I0, IF).
'$write_output_vars'([]).
'$write_output_vars'([V|VL]) :-
format(user_error,' = ~s',[V]),
'$write_output_vars'(VL).
call(G) :- '$execute'(G).
incore(G) :- '$execute'(G).
%
% standard meta-call, called if $execute could not do everything.
%
'$meta_call'(G, M) :-
'$current_choice_point'(CP),
'$call'(G, CP, G, M).
'$user_call'(G, M) :-
( '$$save_by'(CP1),
'$enable_debugging',
'$call'(G, CP, M:G, M),
'$$save_by'(CP2),
(CP1 == CP2 -> ! ; ( true ; '$enable_debugging', fail ) ),
'$disable_debugging'
;
'$disable_debugging',
fail
).
'$enable_debugging' :-
'$swi_current_prolog_flag'(debug, false), !.
'$enable_debugging' :-
'$nb_getval'('$trace', on, fail), !,
'$creep'.
'$enable_debugging'.
'$disable_debugging' :-
'$stop_creeping'.
','(X,Y) :-
yap_hacks:env_choice_point(CP),
'$current_module'(M),
'$call'(X,CP,(X,Y),M),
'$call'(Y,CP,(X,Y),M).
';'((X->A),Y) :- !,
yap_hacks:env_choice_point(CP),
'$current_module'(M),
( '$execute'(X)
->
'$call'(A,CP,(X->A;Y),M)
;
'$call'(Y,CP,(X->A;Y),M)
).
';'((X*->A),Y) :- !,
yap_hacks:env_choice_point(CP),
'$current_module'(M),
(
yap_hacks:current_choice_point(DCP),
'$execute'(X),
yap_hacks:cut_at(DCP),
'$call'(A,CP,((X*->A),Y),M)
;
'$call'(Y,CP,((X*->A),Y),M)
).
';'(X,Y) :-
yap_hacks:env_choice_point(CP),
'$current_module'(M),
( '$call'(X,CP,(X;Y),M) ; '$call'(Y,CP,(X;Y),M) ).
'|'(X,Y) :-
yap_hacks:env_choice_point(CP),
'$current_module'(M),
( '$call'(X,CP,(X|Y),M) ; '$call'(Y,CP,(X|Y),M) ).
'->'(X,Y) :-
yap_hacks:env_choice_point(CP),
'$current_module'(M),
( '$call'(X,CP,(X->Y),M) -> '$call'(Y,CP,(X->Y),M) ).
'*->'(X,Y) :-
yap_hacks:env_choice_point(CP),
'$current_module'(M),
( '$call'(X,CP,(X*->Y),M), '$call'(Y,CP,(X*->Y),M) ).
\+(G) :- \+ '$execute'(G).
not(G) :- \+ '$execute'(G).
'$cut_by'(CP) :- '$$cut_by'(CP).
%
% do it in ISO mode.
%
'$meta_call'(G,_ISO,M) :-
'$iso_check_goal'(G,G),
'$current_choice_point'(CP),
'$call'(G, CP, G, M).
'$meta_call'(G, CP, G0, M) :-
'$call'(G, CP, G0, M).
'$call'(G, CP, G0, _, M) :- /* iso version */
'$iso_check_goal'(G,G0),
'$call'(G, CP, G0, M).
'$call'(M:_,_,G0,_) :- var(M), !,
'$do_error'(instantiation_error,call(G0)).
'$call'(M:G,CP,G0,_) :- !,
'$call'(G,CP,G0,M).
'$call'((X,Y),CP,G0,M) :- !,
'$call'(X,CP,G0,M),
'$call'(Y,CP,G0,M).
'$call'((X->Y),CP,G0,M) :- !,
(
'$call'(X,CP,G0,M)
->
'$call'(Y,CP,G0,M)
).
'$call'((X*->Y),CP,G0,M) :- !,
'$call'(X,CP,G0,M),
'$call'(Y,CP,G0,M).
'$call'((X->Y; Z),CP,G0,M) :- !,
(
'$call'(X,CP,G0,M)
->
'$call'(Y,CP,G0,M)
;
'$call'(Z,CP,G0,M)
).
'$call'((X*->Y; Z),CP,G0,M) :- !,
(
'$current_choice_point'(DCP),
'$call'(X,CP,G0,M),
yap_hacks:cut_at(DCP),
'$call'(Y,CP,G0,M)
;
'$call'(Z,CP,G0,M)
).
'$call'((A;B),CP,G0,M) :- !,
(
'$call'(A,CP,G0,M)
;
'$call'(B,CP,G0,M)
).
'$call'((X->Y| Z),CP,G0,M) :- !,
(
'$call'(X,CP,G0,M)
->
'$call'(Y,CP,G0,M)
;
'$call'(Z,CP,G0,M)
).
'$call'((X*->Y| Z),CP,G0,M) :- !,
(
'$current_choice_point'(DCP),
'$call'(X,CP,G0,M),
yap_hacks:cut_at(DCP),
'$call'(Y,CP,G0,M)
;
'$call'(Z,CP,G0,M)
).
'$call'((A|B),CP, G0,M) :- !,
(
'$call'(A,CP,G0,M)
;
'$call'(B,CP,G0,M)
).
'$call'(\+ X, _CP, _G0, M) :- !,
'$current_choice_point'(CP),
\+ '$call'(X,CP,G0,M).
'$call'(not(X), _CP, _G0, M) :- !,
\+ '$call'(X,CP,G0,M).
'$call'(!, CP, _,_) :- !,
'$$cut_by'(CP).
'$call'([A|B], _, _, M) :- !,
'$csult'([A|B], M).
'$call'(G, CP, G0, CurMod) :-
( '$is_expand_goal_or_meta_predicate'(G,CurMod) ->
(
'$do_goal_expansion'(G, CurMod, NG) ->
'$call'(NG, CP, G0,CurMod)
;
% repeat other code.
'$is_metapredicate'(G,CurMod) ->
(
'$meta_expansion'(G,CurMod,CurMod,CurMod,NG,[]) ->
'$execute0'(NG, CurMod)
;
'$execute0'(G, CurMod)
)
;
'$execute0'(G, CurMod)
)
;
'$execute0'(G, CurMod)
).
'$check_callable'(V,G) :- var(V), !,
'$do_error'(instantiation_error,G).
'$check_callable'(M:_G1,G) :- var(M), !,
'$do_error'(instantiation_error,G).
'$check_callable'(_:G1,G) :- !,
'$check_callable'(G1,G).
'$check_callable'(A,G) :- number(A), !,
'$do_error'(type_error(callable,A),G).
'$check_callable'(R,G) :- db_reference(R), !,
'$do_error'(type_error(callable,R),G).
'$check_callable'(_,_).
% Called by the abstract machine, if no clauses exist for a predicate
'$undefp'([M|G]) :-
'$find_goal_definition'(M, G, NM, NG),
'$execute0'(NG, NM).
'$find_goal_definition'(M, G, NM, NG) :-
% make sure we do not loop on undefined predicates
% for undefined_predicates.
'$enter_undefp',
(
'$get_undefined_pred'(G, M, Goal, NM)
->
'$exit_undefp',
Goal \= fail,
'$complete_goal'(M, Goal, NM, G, NG)
;
'$find_undefp_handler'(G, M),
NG = G, NM = M
).
'$complete_goal'(M, G, CurMod, G0, NG) :-
(
'$is_metapredicate'(G,CurMod)
->
'$meta_expansion'(G, CurMod, M, M, NG,[])
;
NG = G
).
'$find_undefp_handler'(G,M,NG,user) :-
functor(G, Na, Ar),
user:exception(undefined_predicate,M:Na/Ar,Action), !,
'$exit_undefp',
(
Action == fail
->
NG = fail
;
Action == retry
->
NG = G
;
Action == error
->
'$unknown_error'(M:G)
;
'$do_error'(type_error(atom, Action),M:G)
).
'$find_undefp_handler'(G,M) :-
'$exit_undefp',
'$swi_current_prolog_flag'(M:unknown, Action),
(
Action == fail
->
fail
;
Action == warning
->
'$unknown_warning'(M:G),
fail
;
'$unknown_error'(M:G)
).
'$silent_bootstrap'(F) :-
'$init_globals',
nb_setval('$if_level',0),
'$swi_current_prolog_flag'(verbose_load, OldSilent),
'$swi_set_prolog_flag'(verbose_load, silent),
bootstrap(F),
% -p option must be processed after initializing the system
'$swi_set_prolog_flag'(verbose_load, OldSilent).
bootstrap(F) :-
% '$open'(F, '$csult', Stream, 0, 0, F),
% '$file_name'(Stream,File),
open(F, read, Stream),
stream_property(Stream, file_name(File)),
'$start_consult'(consult, File, LC),
file_directory_name(File, Dir),
working_directory(OldD, Dir),
(
'$swi_current_prolog_flag'(verbose_load, silent)
->
true
;
H0 is heapused, '$cputime'(T0,_),
format(user_error, '~*|% consulting ~w...~n', [LC,F])
),
'$loop'(Stream,consult),
working_directory(_, OldD),
'$end_consult',
(
'$swi_current_prolog_flag'(verbose_load, silent)
->
true
;
H is heapused-H0, '$cputime'(TF,_), T is TF-T0,
format(user_error, '~*|% ~w consulted ~w bytes in ~d msecs~n', [LC,F,H,T])
),
!,
close(Stream).
'$loop'(Stream,exo) :-
prolog_flag(agc_margin,Old,0),
prompt1('| '), prompt(_,'| '),
'$current_module'(OldModule),
repeat,
'$system_catch'(dbload_from_stream(Stream, OldModule, exo), '$db_load', Error,
user:'$LoopError'(Error, Status)),
prolog_flag(agc_margin,_,Old),
!.
'$loop'(Stream,db) :-
prolog_flag(agc_margin,Old,0),
prompt1('| '), prompt(_,'| '),
'$current_module'(OldModule),
repeat,
'$system_catch'(dbload_from_stream(Stream, OldModule, db), '$db_load', Error,
user:'$LoopError'(Error, Status)),
prolog_flag(agc_margin,_,Old),
!.
'$loop'(Stream,Status) :-
repeat,
prompt1('| '), prompt(_,'| '),
'$current_module'(OldModule),
'$system_catch'('$enter_command'(Stream,OldModule,Status), OldModule, Error,
user:'$LoopError'(Error, Status)),
!.
'$enter_command'(Stream,Mod,Status) :-
read_term(Stream, Command, [module(Mod), variable_names(Vars), term_position(Pos), syntax_errors(dec10), process_comment(true), singletons( Singletons ) ]),
( Singletons == []
->
true
;
get_value('$syntaxchecksinglevar',on)
->
'$sv_warning'(Singletons, Command )
;
true
),
'$command'(Command,Vars,Pos,Status).
'$abort_loop'(Stream) :-
'$do_error'(permission_error(input,closed_stream,Stream), loop).
/* General purpose predicates */
'$head_and_body'((H:-B),H,B) :- !.
'$head_and_body'(H,H,true).
%
% split head and body, generate an error if body is unbound.
%
'$check_head_and_body'((H:-B),H,B,P) :- !,
'$check_head'(H,P).
'$check_head_and_body'(H,H,true,P) :-
'$check_head'(H,P).
'$check_head'(H,P) :- var(H), !,
'$do_error'(instantiation_error,P).
'$check_head'(H,P) :- number(H), !,
'$do_error'(type_error(callable,H),P).
'$check_head'(H,P) :- db_reference(H), !,
'$do_error'(type_error(callable,H),P).
'$check_head'(_,_).
% term expansion
%
% return two arguments: Expanded0 is the term after "USER" expansion.
% Expanded is the final expanded term.
%
'$precompile_term'(Term, Expanded0, Expanded, BodyMod, SourceMod) :-
'$module_expansion'(Term, Expanded0, ExpandedI, BodyMod, SourceMod), !,
(
'$access_yap_flags'(9,1) /* strict_iso on */
->
Expanded = ExpandedI,
'$check_iso_strict_clause'(Expanded0)
;
'$expand_array_accesses_in_term'(ExpandedI,Expanded)
).
'$precompile_term'(Term, Term, Term, _, _).
expand_term(Term,Expanded) :-
( '$do_term_expansion'(Term,Expanded)
->
true
;
'$expand_term_grammar'(Term,Expanded)
).
%
% Grammar Rules expansion
%
'$expand_term_grammar'((A-->B), C) :-
'$translate_rule'((A-->B),C), !.
'$expand_term_grammar'(A, A).
%
% Arithmetic expansion
%
'$expand_array_accesses_in_term'(Expanded0,ExpandedF) :-
'$array_refs_compiled',
'$c_arrays'(Expanded0,ExpandedF), !.
'$expand_array_accesses_in_term'(Expanded,Expanded).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% catch/throw implementation
% at each catch point I need to know:
% what is ball;
% where was the previous catch
catch(G, C, A) :-
'$catch'(C,A,_),
'$$save_by'(CP0),
'$execute'(G),
'$$save_by'(CP1),
(CP0 == CP1 -> !; true ).
% makes sure we have an environment.
'$true'.
% system_catch is like catch, but it avoids the overhead of a full
% meta-call by calling '$execute0' instead of $execute.
% This way it
% also avoids module preprocessing and goal_expansion
%
'$system_catch'(G, M, C, A) :-
% check current trail
'$catch'(C,A,_),
'$$save_by'(CP0),
'$execute_nonstop'(G, M),
'$$save_by'(CP1),
(CP0 == CP1 -> !; true ).
%
% throw has to be *exactly* after system catch!
%
throw(_Ball) :-
% use existing ball
'$get_exception'(Ball),
!,
'$jump_env_and_store_ball'(Ball).
throw(Ball) :-
( var(Ball) ->
'$do_error'(instantiation_error,throw(Ball))
;
% get current jump point
'$jump_env_and_store_ball'(Ball)
).
% just create a choice-point
'$catch'(_,_,_).
'$catch'(_,_,_) :- fail.
'$handle_throw'(_, _, _).
'$handle_throw'(C, A, _Ball) :-
'$reset_exception'(Ball),
% reset info
(catch_ball(Ball, C) ->
'$execute'(A)
;
throw(Ball)
).
catch_ball(Abort, _) :- Abort == '$abort', !, fail.
% system defined throws should be ignored by used, unless the
% user is hacking away.
catch_ball(Ball, V) :-
var(V),
nonvar(Ball),
Ball = error(Type,_), % internal error ??
functor(Type, Name, _),
atom_codes(Name, [0'$|_]), %'0
!, fail.
catch_ball(C, C).
'$run_toplevel_hooks' :-
'$swi_current_prolog_flag'(break_level, 0 ),
recorded('$toplevel_hooks',H,_),
H \= fail, !,
( call(user:H1) -> true ; true).
'$run_toplevel_hooks'.
'$run_at_thread_start' :-
recorded('$thread_initialization',M:D,_),
'$meta_call'(D, M),
fail.
'$run_at_thread_start'.