/************************************************************************* * * * 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 * * * *************************************************************************/ % This one should come first so that disjunctions and long distance % cuts are compiled right with co-routining. % true :- true. '$live' :- '$init_system', '$do_live'. '$do_live' :- repeat, '$set_input'(user),'$set_output'(user), '$current_module'(Module), ( Module=user -> '$compile_mode'(_,0) ; '$format'(user_error,"[~w]~n", [Module]) ), '$system_catch'('$enter_top_level',Module,Error,user:'$Error'(Error)). read_sig :- recorded('$sig_handler',X,_), writeq(X),nl, fail. read_sig. '$init_system' :- % do catch as early as possible ( '$access_yap_flags'(15, 0) -> '$version' ; true ), % If this is not here, the following get written twice in the idb. Why? eraseall('$sig_handler'), % The default interrupt handlers are kept, so that it's % possible to revert to them with on_signal(S,_,default) '$recordz'('$sig_handler',default(sig_hup, (( exists('~/.yaprc') -> [-'~/.yaprc'] ; true ), ( exists('~/.prologrc') -> [-'~/.prologrc'] ; true ), ( exists('~/prolog.ini') -> [-'~/prolog.ini'] ; true ))), _), '$recordz'('$sig_handler',default(sig_usr1, (nl,writeq('[ Received user signal 1 ]'),nl,halt)), _), '$recordz'('$sig_handler',default(sig_usr2, (nl,writeq('[ Received user signal 2 ]'),nl,halt)), _), % The current interrupt handlers are also set the default values '$recordz'('$sig_handler',action(sig_hup, (( exists('~/.yaprc') -> [-'~/.yaprc'] ; true ), ( exists('~/.prologrc') -> [-'~/.prologrc'] ; true ), ( exists('~/prolog.ini') -> [-'~/prolog.ini'] ; true ))), _), '$recordz'('$sig_handler',action(sig_usr1, (nl,writeq('[ Received user signal 1 ]'),nl,halt)), _), '$recordz'('$sig_handler',action(sig_usr2, (nl,writeq('[ Received user signal 2 ]'),nl,halt)), _), '$set_yap_flags'(10,0), '$set_value'('$gc',on), '$set_value'('$verbose',on), prompt(' ?- '), ( '$get_value'('$break',0) -> % '$set_read_error_handler'(error), let the user do that % after an abort, make sure all spy points are gone. '$clean_debugging_info', % simple trick to find out if this is we are booting from Prolog. '$get_value'('$user_module',V), ( V = [] -> '$current_module'(_,prolog) ; '$current_module'(_,V), '$compile_mode'(_,0), ('$access_yap_flags'(16,0) -> ( exists('~/.yaprc') -> [-'~/.yaprc'] ; true ), ( exists('~/.prologrc') -> [-'~/.prologrc'] ; true ), ( exists('~/prolog.ini') -> [-'~/prolog.ini'] ; true ) ; true ) ), '$db_clean_queues'(0), '$startup_reconsult', '$startup_goals' ; true ). % % encapsulate $cut_by because of co-routining. % '$cut_by'(X) :- '$$cut_by'(X). % Start file for yap /* I/O predicates */ /* meaning of flags for '$write' is 1 quote illegal atoms 2 ignore operator declarations 4 output '$VAR'(N) terms as A, B, C, ... 8 use portray(_) */ /* main execution loop */ '$read_vars'(Stream,T,Pos,V) :- '$read'(true,T,V,Pos,Err,Stream), (nonvar(Err) -> '$print_message'(error,Err), fail ; true ). % reset alarms when entering top-level. '$enter_top_level' :- '$alarm'(0, _), fail. '$enter_top_level' :- '$clean_up_dead_clauses', fail. '$enter_top_level' :- '$recorded'('$restore_goal',G,R), erase(R), prompt(_,' | '), '$system_catch'('$do_yes_no'((G->true),user),user,Error,user:'$Error'(Error)), fail. '$enter_top_level' :- ( '$get_value'('$trace', 1) -> '$set_value'(spy_sl,0), '$format'(user_error, "[trace]~n", []) ; '$get_value'(debug, 1) -> '$format'(user_error, "[debug]~n", []) ), fail. '$enter_top_level' :- prompt(_,' ?- '), prompt(' | '), '$read_vars'(user_input,Command,_,Varnames), '$set_value'(spy_sl,0), '$set_value'(spy_fs,0), '$set_value'(spy_sp,0), '$set_value'(spy_gn,1), ( '$get_value'('$trace', 1) -> '$set_yap_flags'(10,1) ; '$set_yap_flags'(10,0) ), '$set_value'(spy_cl,1), '$set_value'(spy_leap,0), '$setflop'(0), prompt(_,' |: '), '$run_toplevel_hooks', '$command'((?-Command),Varnames,top), '$sync_mmapped_arrays', '$set_value'('$live',false). '$startup_goals' :- '$recorded'('$startup_goal',G,_), '$current_module'(Module), '$system_catch'('$query'((G->true), []),Module,Error,user:'$Error'(Error)), fail. '$startup_goals'. '$startup_reconsult' :- '$get_value'('$consult_on_boot',X), X \= [], !, '$do_startup_reconsult'(X). '$startup_reconsult'. % % remove any debugging info after an abort. % '$clean_debugging_info' :- '$recorded'('$spy',_,R), erase(R), fail. '$clean_debugging_info'. '$erase_sets' :- eraseall('$'), eraseall('$$set'), eraseall('$$one'), eraseall('$reconsulted'), fail. '$erase_sets' :- \+ '$recorded'('$path',_,_), '$recorda'('$path',"",_). '$erase_sets'. '$version' :- '$get_value'('$version_name',VersionName), '$format'(user_error, "[ YAP version ~w ]~n", [VersionName]), fail. '$version' :- '$recorded'('$version',VersionName,_), '$format'(user_error, "~w~n", [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,Con) :- '$access_yap_flags'(9,1), !, '$execute_command'(C,VL,Con). '$command'(C,VL,Con) :- ( (Con = top ; var(C) ; C = [_|_]) -> '$execute_command'(C,VL,Con) ; expand_term(C, EC), '$execute_commands'(EC,VL,Con) ). % % Hack in case expand_term has created a list of commands. % '$execute_commands'(V,_,_) :- var(V), !, '$do_error'(instantiation_error,meta_call(V)). '$execute_commands'([],_,_) :- !, fail. '$execute_commands'([C|_],VL,Con) :- '$execute_command'(C,VL,Con). '$execute_commands'([_|Cs],VL,Con) :- !, '$execute_commands'(Cs,VL,Con). '$execute_commands'(C,VL,Con) :- '$execute_command'(C,VL,Con). % % % '$execute_command'(C,_,top) :- var(C), !, '$do_error'(instantiation_error,meta_call(C)). '$execute_command'(end_of_file,_,_). '$execute_command'(C,_,top) :- number(C), !, '$do_error'(type_error(callable,C),meta_call(C)). '$execute_command'(R,_,top) :- db_reference(R), !, '$do_error'(type_error(callable,R),meta_call(R)). '$execute_command'((:-G),_,Option) :- !, '$current_module'(M), '$process_directive'(G, Option, M), fail. '$execute_command'((?-G),V,_) :- !, '$execute_command'(G,V,top). '$execute_command'(G,V,Option) :- '$continue_with_command'(Option,V,G). % % 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) :- '$access_yap_flags'(8, 0), !, % YAP mode, go in and do it, '$process_directive'(G, consult, M). '$process_directive'(G, top, _) :- !, '$do_error'(context_error((:- G),clause),query). % % always allow directives. % '$process_directive'(D, Mode, M) :- '$directive'(D), !, ( '$exec_directive'(D, Mode, M) -> true ; true ). % % allow multiple directives % '$process_directive'((G1,G2), Mode, M) :- '$all_directives'(G1), '$all_directives'(G2), !, '$exec_directives'(G1, Mode, M), '$exec_directives'(G2, Mode, M). % % allow modules % '$process_directive'(M:G, Mode, _) :- !, '$process_directive'(G, Mode, M). % % ISO does not allow goals (use initialization). % '$process_directive'(D, _, M) :- '$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) :- ( '$do_yes_no'(G,M) -> true ; '$format'(user_error,":- ~w:~w failed.~n",[M,G]) ). '$all_directives'(_:G1) :- !, '$all_directives'(G1). '$all_directives'((G1,G2)) :- !, '$all_directives'(G1), '$all_directives'(G2). '$all_directives'(G) :- !, '$directive'(G). '$continue_with_command'(reconsult,V,G) :- '$go_compile_clause'(G,V,5), fail. '$continue_with_command'(consult,V,G) :- '$go_compile_clause'(G,V,13), 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'(Mod:G,V,N) :- !, '$go_compile_clause'(G,V,N,Mod). '$go_compile_clause'((M:G :- B),V,N) :- !, '$current_module'(M1), (M1 = M -> NG = (G :- B) ; '$preprocess_clause_before_mod_change'((G:-B),M1,M,NG) ), '$go_compile_clause'(NG,V,N,M). '$go_compile_clause'(G,V,N) :- '$current_module'(Mod), '$go_compile_clause'(G,V,N,Mod). '$go_compile_clause'(G, V, N, Mod) :- '$prepare_term'(G, V, G0, G1, Mod), '$$compile'(G1, G0, N, Mod). '$prepare_term'(G,V,G0,G1, Mod) :- ( '$get_value'('$syntaxcheckflag',on) -> '$check_term'(G,V,Mod) ; true ), '$precompile_term'(G, G0, G1, Mod). % process an input clause '$$compile'(G, G0, L, Mod) :- '$head_and_body'(G,H,_), '$inform_of_clause'(H,L), '$flags'(H, Mod, Fl, Fl), ( Fl /\ 16'002008 =\= 0 -> '$assertz_dynamic'(L,G,G0,Mod) ; '$$compile_stat'(G,G0,L,H, Mod) ). % process a clause for a static predicate '$$compile_stat'(G,G0,L,H, Mod) :- '$compile'(G,L,Mod), % first occurrence of this predicate in this file, % check if we need to erase the source and if % it is a multifile procedure. '$flags'(H,Mod,Fl,Fl), ( '$get_value'('$abol',true) -> ( Fl /\ 16'400000 =\= 0 -> '$erase_source'(H, Mod) ; true ), ( Fl /\ 16'040000 =\= 0 -> '$check_multifile_pred'(H,Mod,Fl) ; true ) ; true ), ( Fl /\ 16'400000 =:= 0 -> % is this procedure in source mode? % no, just ignore true ; % and store our clause '$store_stat_clause'(G0, H, L, Mod) ). '$store_stat_clause'(G0, H, L, M) :- '$head_and_body'(G0,H0,B0), '$record_stat_source'(M:H,(H0:-B0),L,R), ( '$is_multifile'(H,M) -> '$get_value'('$consulting_file',F), functor(H, Na, Ar), '$recordz'('$multifile'(_,_,_), '$mf'(Na,Ar,M,F,R), _) ; true ). '$erase_source'(G, M) :- '$is_multifile'(G, M), !, functor(G, Na, Ar), '$erase_mf_source'(Na, Ar, M). '$erase_source'(G, M) :- '$recordedp'(M:G,_,R), erase(R), fail. '$erase_source'(_, _). '$erase_mf_source'(Na, Ar, M) :- '$get_value'('$consulting_file',F), '$recorded'('$multifile'(_,_,_), '$mf'(Na,Ar,M,F,R), R1), erase(R1), erase(R), fail. '$erase_mf_source'(Na, Ar, M) :- '$get_value'('$consulting_file',F), '$recorded'('$multifile_dynamic'(_,_,_), '$mf'(Na,Ar,M,F,R), R1), erase(R1), erase(R), fail. '$erase_mf_source'(_,_,_). '$check_if_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) ). /* Executing a query */ '$query'(end_of_file,_). % *************************** % * -------- YAPOR -------- * % *************************** '$query'(G,V) :- \+ '$undefined'('$yapor_on', prolog), '$yapor_on', \+ '$undefined'('$start_yapor', prolog), '$parallelizable'(G), !, '$parallel_query'(G,V), fail. % end of YAPOR '$query'(G,[]) :- !, '$yes_no'(G,(?-)). '$query'(G,V) :- ( '$execute'(G), '$extract_goal_vars_for_dump'(V,LIV), '$show_frozen'(G,LIV,LGs), '$write_answer'(V, LGs, Written), '$write_query_answer_true'(Written), '$another', !, fail ; '$present_answer'(_, no), fail ). '$yes_no'(G,C) :- '$current_module'(M), '$do_yes_no'(G,M), '$show_frozen'(G, [], LGs), '$write_answer'([], LGs, Written), ( Written = [] -> !,'$present_answer'(C, yes); '$another', ! ), fail. '$yes_no'(_,_) :- '$present_answer'(_, no), fail. '$do_yes_no'([X|L], M) :- !, '$csult'([X|L], M). '$do_yes_no'(G, M) :- '$execute'(M:G). '$extract_goal_vars_for_dump'([],[]). '$extract_goal_vars_for_dump'([[_|V]|VL],[V|LIV]) :- '$extract_goal_vars_for_dump'(VL,LIV). '$write_query_answer_true'([]) :- !, '$format'(user_error,"~ntrue",[]). '$write_query_answer_true'(_). '$show_frozen'(G,V,LGs) :- '$all_frozen_goals'(LGs0), LGs0 = [_|_], !, attributes:all_attvars(LAV), '$convert_to_list_of_frozen_goals'(LGs0,V,LAV,G,LGs). '$show_frozen'(_,_,[]). % % 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_all_streams', fail. '$present_answer'((?-), Answ) :- '$format'(user_error,"~n", []), '$get_value'('$break',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), ( C== 0'; -> '$skip'(user_input,10), fail ; C== 10 -> '$format'(user_error,"~n", []) ; C== -1 -> halt ; '$skip'(user_input,10), '$ask_again_for_another' ). '$ask_again_for_another' :- '$format'(user_error,"Action (\";\" for more choices, for exit)", []), '$another'. '$write_answer'(_,_,_) :- '$flush_all_streams', fail. '$write_answer'(Vs, LBlk, LAnsw) :- '$purge_dontcares'(Vs,NVs), '$prep_answer_var_by_var'(NVs, LAnsw, LBlk), '$name_vars_in_goals'(LAnsw, Vs, NLAnsw), '$write_vars_and_goals'(NLAnsw). '$purge_dontcares'([],[]). '$purge_dontcares'([[[95|_]|_]|Vs],NVs) :- !, '$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'([G1|LG]) :- '$write_goal_output'(G1), '$write_remaining_vars_and_goals'(LG). '$write_remaining_vars_and_goals'([]). '$write_remaining_vars_and_goals'([G1|LG]) :- '$format'(user_error,",",[]), '$write_goal_output'(G1), '$write_remaining_vars_and_goals'(LG). '$write_goal_output'(var([V|VL])) :- '$format'(user_error,"~n~s",[V]), '$write_output_vars'(VL). '$write_goal_output'(nonvar([V|VL],B)) :- '$format'(user_error,"~n~s",[V]), '$write_output_vars'(VL), '$format'(user_error," = ", []), ( '$recorded'('$print_options','$toplevel'(Opts),_) -> write_term(user_error,B,Opts) ; '$format'(user_error,"~w",[B]) ). '$write_goal_output'(_-G) :- '$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, NG) :- '$copy_term_but_not_constraints'(G+VL0, NG+NVL0), '$name_well_known_vars'(NVL0), '$variables_in_term'(NG, [], NGVL), '$name_vars_in_goals1'(NGVL, 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'([95|Name])|NGVL], I0, IF) :- I is I0+1, '$gen_name_string'(I0,[],Name), !, '$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) :- '$save_current_choice_point'(CP), '$call'(G, CP, G, M). % % do it in ISO mode. % '$meta_call'(G,_ISO,M) :- '$iso_check_goal'(G,G), '$save_current_choice_point'(CP), '$call'(G, CP, G, M). '$meta_call'(G, CP, G0, M) :- '$call'(G, CP, G0, M). '$spied_meta_call'(G, M) :- '$save_current_choice_point'(CP), '$spied_call'(G, CP, G, M). '$spied_meta_call'(G, CP, G0, M) :- '$spied_call'(G, CP, G0, M). '$call'(G, CP, G0, _, M) :- /* iso version */ '$iso_check_goal'(G,G0), '$call'(G, CP, G0, M). ','(A,B) :- '$execute_within'(A), '$last_execute_within'(B). % Be careful with -> cutting through (A;B) :- (A = ( T->G) -> ( '$execute_within'(T) -> '$execute_within'(G) ; '$execute_within'(A) ; '$execute_within'(B) ) ; ( '$execute_within'(A) ; '$execute_within'(B) ) ). '|'(A,B) :- (A = ( T->G) -> ( '$execute_within'(T) -> '$execute_within'(G) ; '$execute_within'(A) ; '$execute_within'(B) ) ; ( '$execute_within'(A) ; '$execute_within'(B) ) ). '->'(A,B) :- ( '$execute_within'(A) -> '$last_execute_within'(B) ). \+(A) :- \+ '$execute_within'(A). not(A) :- \+ '$execute_within'(A). '$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) :- !, '$execute_within'(X,CP,G0,M), '$execute_within'(Y,CP,G0,M). '$call'((X->Y),CP,G0,M) :- !, ( '$execute_within'(X,CP,G0,M) -> '$execute_within'(Y,CP,G0,M) ). '$call'((X->Y; Z),CP,G0,M) :- !, ( '$execute_within'(X,CP,G0,M) -> '$execute_within'(Y,CP,G0,M) ; '$execute_within'(Z,CP,G0,M) ). '$call'((A;B),CP,G0,M) :- !, ( '$execute_within'(A,CP,G0,M) ; '$execute_within'(B,CP,G0,M) ). '$call'((A|B),CP, G0,M) :- !, ( '$execute_within'(A,CP,G0,M) ; '$execute_within'(B,CP,G0,M) ). '$call'(\+ X, _, _,_) :- !, \+ '$execute'(X). '$call'(not(X), _, _,_) :- !, \+ '$execute'(X). '$call'(!, CP, _,_) :- !, '$$cut_by'(CP). '$call'([A|B], _, _, M) :- !, '$csult'([A|B], M). '$call'(A, _, _,CurMod) :- ( % goal_expansion is defined, or '$pred_goal_expansion_on' ; % this is a meta-predicate '$flags'(A,CurMod,F,_), F /\ 0x200000 =:= 0x200000 ), !, '$expand_goal'(A, CurMod, CurMod, NG, NMod), '$execute0'(NG, NMod). '$call'(A, _, _, M) :- '$execute0'(A, M). '$spied_call'((A,B),CP,G0,M) :- !, '$execute_within'(A,CP,G0,M), '$execute_within'(B,CP,G0,M). '$spied_call'((X->Y),CP,G0,M) :- !, ( '$execute_within'(X,CP,G0,M) -> '$execute_within'(Y,CP,G0,M) ). '$spied_call'((X->Y; Z),CP,G0,M) :- !, ( '$execute_within'(X,CP,G0,M) -> '$execute_within'(Y,CP,G0,M) ; '$execute_within'(Z,CP,G0,M) ). '$spied_call'((A;B),CP,G0,M) :- !, ( '$execute_within'(A,CP,G0,M) ; '$execute_within'(B,CP,G0,M) ). '$spied_call'((A|B),CP,G0,M) :- !, ( '$execute_within'(A,CP,G0,M) ; '$execute_within'(B,CP,G0,M) ). '$spied_call'(\+ X,_,_,M) :- !, \+ '$execute'(M:X). '$spied_call'(not X,_,_,M) :- !, \+ '$execute'(M:X). '$spied_call'(!,CP,_,_) :- '$$cut_by'(CP). '$spied_call'([A|B],_,_,M) :- !, '$csult'([A|B], M). '$spied_call'(A, _CP, _G0, CurMod) :- ( % goal_expansion is defined, or '$pred_goal_expansion_on' ; % this is a meta-predicate '$flags'(A,CurMod,F,_), F /\ 0x200000 =:= 0x200000 ), !, '$expand_goal'(A, CurMod, CurMod, NG, NMod), '$execute0'(NG, NMod). '$spied_call'(A, CP, G0, M) :- ( '$undefined'(A, M) -> functor(A,F,N), ( '$recorded'('$import','$import'(S,M,F,N),_) -> '$spied_call'(S:A,CP,G0,M) ; '$spy'(A) ) ; '$spy'(A) ). '$check_callable'(V,G) :- var(V), !, '$current_module'(Mod), '$do_error'(instantiation_error,Mod:G). '$check_callable'(A,G) :- number(A), !, '$current_module'(Mod), '$do_error'(type_error(callable,A),Mod:G). '$check_callable'(R,G) :- db_reference(R), !, '$current_module'(Mod), '$do_error'(type_error(callable,R),Mod:G). '$check_callable'(_,_). % Called by the abstract machine, if no clauses exist for a predicate '$undefp'([M|G]) :- functor(G,F,N), '$recorded'('$import','$import'(S,M,F,N),_), S \= M, % can't try importing from the module itself. !, '$expand_goal'(G, S, M, NG, NMod), '$execute0'(NG, NMod). '$undefp'([M|G]) :- \+ '$undefined'(unknown_predicate_handler(_,_,_), user), user:unknown_predicate_handler(G,M,NG), !, '$execute'(M:NG). '$undefp'([M|G]) :- '$recorded'('$unknown','$unknown'(M:G,US),_), !, '$execute'(user:US). /* This is the break predicate, it saves the importante data about current streams and debugger state */ break :- '$get_value'('$break',BL), NBL is BL+1, '$get_value'(spy_sl,SPY_SL), '$get_value'(spy_fs,SPY_FS), '$get_value'(spy_sp,SPY_SP), '$get_value'(spy_gn,SPY_GN), '$access_yap_flags'(10,SPY_CREEP), '$get_value'(spy_cl,SPY_CL), '$get_value'(spy_leap,_Leap), '$set_value'('$break',NBL), current_output(OutStream), current_input(InpStream), '$format'(user_error, "[ Break (level ~w) ]~n", [NBL]), '$do_live', !, '$set_value'('$live',true), '$set_value'(spy_sl,SPY_SL), '$get_value'(spy_fs,SPY_FS), '$set_value'(spy_sp,SPY_SP), '$set_value'(spy_gn,SPY_GN), '$set_yap_flags'(10,SPY_CREEP), '$set_value'(spy_cl,SPY_CL), '$set_value'(spy_leap,_Leap), '$set_input'(InpStream), '$set_output'(OutStream), '$set_value'('$break',BL). '$csult'(V, _) :- var(V), !, '$do_error'(instantiation_error,consult(V)). '$csult'([], _) :- !. '$csult'([-F|L], M) :- !, '$reconsult'(M:F), '$csult'(L, M). '$csult'([F|L], M) :- '$consult'(M:F), '$csult'(L, M). '$consult'(V) :- var(V), !, '$do_error'(instantiation_error,consult(V)). '$consult'([]) :- !. '$consult'([F|Fs]) :- !, '$consult'(F), '$consult'(Fs). '$consult'(M:X) :- atom(M), !, '$current_module'(M0), '$change_module'(M), '$consult'(X), '$change_module'(M0). '$consult'(X) :- '$find_in_path'(X,Y,consult(X)), '$open'(Y,'$csult',Stream,0), !, '$consult'(X,Stream), '$close'(Stream). '$consult'(X) :- '$do_error'(permission_error(input,stream,X),consult(X)). '$consult'(_,Stream) :- '$record_loaded'(Stream), fail. '$consult'(F,Stream) :- '$access_yap_flags'(8, 2), % SICStus Prolog compatibility !, '$reconsult'(F,Stream). '$consult'(F,Stream) :- '$getcwd'(OldD), '$get_value'('$consulting_file',OldF), '$set_consulting_file'(Stream), H0 is heapused, '$cputime'(T0,_), '$current_stream'(File,_,Stream), '$current_module'(OldModule), '$start_consult'(consult,File,LC), '$get_value'('$consulting',Old), '$set_value'('$consulting',true), '$recorda'('$initialisation','$',_), ( '$undefined'('$print_message'(_,_),prolog) -> ( '$get_value'('$verbose',on) -> '$format'(user_error, "~*|[ consulting ~w... ]~n", [LC,F]) ; true ) ; '$print_message'(informational, loading(consulting, File)) ), '$loop'(Stream,consult), '$end_consult', '$cd'(OldD), '$set_value'('$consulting',Old), '$set_value'('$consulting_file',OldF), ( LC == 0 -> prompt(_,' |: ') ; true), '$exec_initialisation_goals', '$current_module'(Mod,OldModule), H is heapused-H0, '$cputime'(TF,_), T is TF-T0, ( '$undefined'('$print_message'(_,_),prolog) -> ( '$get_value'('$verbose',on) -> '$format'(user_error, "~*|[ ~w consulted ~w bytes in ~d msecs ]~n", [LC,F,H,T]) ; true ) ; '$print_message'(informational, loaded(consulted, File, Mod, T, H)) ), !. '$record_loaded'(user). '$record_loaded'(user_input). '$record_loaded'(Stream) :- '$loaded'(Stream,_), !. '$record_loaded'(Stream) :- '$file_name'(Stream,F), '$file_age'(F,Age), '$recorda'('$loaded','$loaded'(F,Age),_). '$set_consulting_file'(user) :- !, '$set_value'('$consulting_file',user_input). '$set_consulting_file'(user_input) :- !, '$set_value'('$consulting_file',user_input). '$set_consulting_file'(Stream) :- '$file_name'(Stream,F), '$set_value'('$consulting_file',F), '$set_consulting_dir'(F). % % Use directory where file exists % '$set_consulting_dir'(F) :- atom_codes(F,S), '$strip_file_for_scd'(S,Dir,Unsure,Unsure), '$cd'(Dir). % % The algorithm: I have two states, one for what I am sure will be an answer, % the other for what I have found so far. % '$strip_file_for_scd'([], [], _, _). '$strip_file_for_scd'([D|L], Out, Out, Cont) :- '$dir_separator'(D), !, '$strip_file_for_scd'(L, Cont, [D|C2], C2). '$strip_file_for_scd'([F|L], Out, Cont, [F|C2]) :- '$strip_file_for_scd'(L, Out, Cont, C2). '$loop'(Stream,Status) :- '$change_alias_to_stream'('$loop_stream',Stream), repeat, ( '$current_stream'(_,_,Stream) -> true ; '$abort_loop'(Stream) ), prompt('| '), prompt(_,'| '), '$current_module'(OldModule), '$system_catch'('$enter_command'(Stream,Status), OldModule, Error, user:'$LoopError'(Error)), !. '$enter_command'(Stream,Status) :- '$read_vars'(Stream,Command,_,Vars), '$command'(Command,Vars,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). '$check_head'(_,_). % Path predicates '$exists'(F,Mode) :- '$get_value'(fileerrors,V), '$set_value'(fileerrors,0), ( '$open'(F,Mode,S,0), !, '$close'(S), '$set_value'(fileerrors,V); '$set_value'(fileerrors,V), fail). '$find_in_path'(user,user_input, _) :- !. '$find_in_path'(user_input,user_input, _) :- !. '$find_in_path'(S,NewFile, _) :- S =.. [Name,File], !, user:file_search_path(Name, Dir), '$dir_separator'(D), atom_codes(A,[D]), atom_concat([Dir,A,File],NFile), '$search_in_path'(NFile, NewFile). '$find_in_path'(File,NewFile,_) :- atom(File), !, '$search_in_path'(File,NewFile),!. '$find_in_path'(File,_,Call) :- '$do_error'(domain_error(source_sink,File),Call). '$search_in_path'(New,New) :- '$exists'(New,'$csult'), !. '$search_in_path'(File,New) :- '$recorded'('$path',Path,_), atom_concat([Path,File],New), '$exists'(New,'$csult'). path(Path) :- findall(X,'$in_path'(X),Path). '$in_path'(X) :- '$recorded'('$path',S,_), ( S == "" -> X = '.' ; name(X,S) ). add_to_path(New) :- add_to_path(New,last). add_to_path(New,Pos) :- '$check_path'(New,Str), atom_codes(Fixed,Str), '$add_to_path'(Fixed,Pos). '$add_to_path'(New,_) :- '$recorded'('$path',New,R), erase(R), fail. '$add_to_path'(New,last) :- !, '$recordz'('$path',New,_). '$add_to_path'(New,first) :- '$recorda'('$path',New,_). remove_from_path(New) :- '$check_path'(New,Path), '$recorded'('$path',Path,R), erase(R). '$check_path'(At,SAt) :- atom(At), !, atom_codes(At,S), '$check_path'(S,SAt). '$check_path'([],[]). '$check_path'([Ch],[Ch]) :- '$dir_separator'(Ch), !. '$check_path'([Ch],[Ch,A]) :- !, integer(Ch), '$dir_separator'(A). '$check_path'([N|S],[N|SN]) :- integer(N), '$check_path'(S,SN). % term expansion % % return two arguments: Expanded0 is the term after "USER" expansion. % Expanded is the final expanded term. % '$precompile_term'(Term, Expanded0, Expanded, Mod) :- ( '$access_yap_flags'(9,1) /* strict_iso on */ -> '$expand_term_modules'(Term, Expanded0, Expanded, Mod), '$check_iso_strict_clause'(Expanded0) ; '$expand_term_modules'(Term, Expanded0, ExpandedI, Mod), '$expand_array_accesses_in_term'(ExpandedI,Expanded) ). expand_term(Term,Expanded) :- ( \+ '$undefined'(term_expansion(_,_), user), user:term_expansion(Term,Expanded) ; '$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_term_arith'(G1, G2) :- '$get_value'('$c_arith',true), '$c_arith'(G1, G2), !. '$expand_term_arith'(G,G). % % Arithmetic expansion % '$expand_array_accesses_in_term'(Expanded0,ExpandedF) :- '$array_refs_compiled', '$c_arrays'(Expanded0,ExpandedF), !. '$expand_array_accesses_in_term'(Expanded,Expanded). % % Module system expansion % '$expand_term_modules'(A,B,C,M) :- '$module_expansion'(A,B,C,M), !. '$expand_term_modules'(A,A,A,_). %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % catch/throw implementation /* new design, not working for now: */ % at each catch point I need to know: % what is ball; % where was the previous catch catch(G, C, A) :- '$catch'(C,A,_), '$execute'(G). % % system_catch is like catch, but it avoids the overhead of a full % meta-call by calling '$execute0' instead of $execute. % This way it % also avoids module preprocessing and goal_expansion % '$system_catch'(G, M, C, A) :- % check current trail '$catch'(C,A,_), '$execute0'(G, M). % % throw has to be *exactly* after system catch! % throw(Ball) :- % get this off the unwound computation. copy_term(Ball,NewBall), % get current jump point '$jump_env_and_store_ball'(NewBall). % just create a choice-point '$catch'(_,_,_). '$catch'(_,_,_) :- fail. '$handle_throw'(_, _, _). '$handle_throw'(C, A, Ball) :- % reset info (C = Ball -> '$execute'(A) ; throw(Ball) ). '$exec_initialisation_goals' :- '$recorded'('$blocking_code',_,R), erase(R), fail. % system goals must be performed first '$exec_initialisation_goals' :- '$recorded'('$system_initialisation',G,R), erase(R), G \= '$', call(G), fail. '$exec_initialisation_goals' :- '$recorded'('$initialisation',G,R), erase(R), G \= '$', '$current_module'(M), '$system_catch'(once(M:G), M, Error, user:'$LoopError'(Error)), fail. '$exec_initialisation_goals'. '$run_toplevel_hooks' :- '$get_value'('$break',0), '$recorded'('$toplevel_hooks',H,_), !, ( '$execute'(H) -> true ; true). '$run_toplevel_hooks'.