/************************************************************************* * * * YAP Prolog * * * * Yap Prolog was developed at NCCUP - Universidade do Porto * * * * Copyright L.Damas, V.S.Costa and Universidade do Porto 1985-1997 * * * ************************************************************************** * * * File: debug.pl * * Last rev: * * mods: * * comments: YAP's debugger * * * *************************************************************************/ /*----------------------------------------------------------------------------- Debugging / creating spy points -----------------------------------------------------------------------------*/ :- op(900,fx,[spy,nospy]). % First part : setting and reseting spy points % $suspy does most of the work '$suspy'(V,S) :- var(V) , !, throw(error(instantiation_error,spy(V,S))). '$suspy'(M:S,P) :- !, '$current_module'(Old,M), ('$suspy'(S,P),fail ; true), !, '$change_module'(Old). '$suspy'([],_) :- !. '$suspy'([F|L],M) :- !, ( '$suspy'(F,M) ; '$suspy'(L,M) ). '$suspy'(F/N,M) :- !, functor(T,F,N), ( '$system_predicate'(T) -> throw(error(permission_error(access,private_procedure,F/N),spy(F/N,S))); '$undefined'(T) -> throw(error(existence_error(procedure,F/N),spy(F/N,S))); '$suspy2'(M,F,N,T) ). '$suspy'(A,S) :- \+ atom(A) , !, throw(error(type_error(predicate_indicator,A),spy(A,S))). '$suspy'(A,spy) :- '$noclausesfor'(A), !, throw(error(existence_error(procedure,A),spy(A))). '$suspy'(A,nospy) :- '$noclausesfor'(A), !, throw(error(existence_error(procedure,A),nospy(A))). '$suspy'(A,M) :- current_predicate(A,T), functor(T,F,N), \+ '$undefined'(T), \+ '$system_predicate'(T), '$suspy2'(M,F,N,T). '$noclausesfor'(A) :- current_predicate(A,T), \+ '$undefined'(T) , \+ '$system_predicate'(T) , !, fail . '$noclausesfor'(_). '$suspy2'(spy,F,N,T) :- $current_module(M), '$recorded'('$spy','$spy'(T,M),_), !, format('[ Warning: there is already a spy point on ~w ]~n',M:F/N). '$suspy2'(spy,F,N,T) :- !, '$warn_if_undef'(T,F,N), $current_module(M), '$recorda'('$spy','$spy'(T,M),_), '$set_value'('$spypoint_added', true), '$set_spy'(T), write(user_error,'[ Spy point set on '), write(user_error,F/N), write(user_error,' ]'), nl(user_error). '$suspy2'(nospy,F,N,T) :- '$current_module'(M), '$recorded'('$spy','$spy'(T,M),R), !, erase(R), '$rm_spy'(T), write(user_error,'[ Spy point on '), write(user_error,F/N), write(user_error,' removed ]'), nl(user_error). '$suspy2'(nospy,F,N,T) :- write(user_error,'[ Warning: there is no spy-point on '), write(user_error,F/N), write(user_error,' ]'), nl(user_error). '$warn_if_undef'(T,F,N) :- '$undefined'(T), !, write(user_error,'[ Warning: you have no clauses for '), write(user_error,F/N), write(user_error,' ]'), nl(user_error). '$warn_if_undef'(_,_,_). '$pred_being_spied'(G) :- $current_module(M),'$recorded'('$spy','$spy'(G,M),_),!. spy L :- '$set_value'('$spypoint_added', false), fail. spy L :- '$suspy'(L,spy), fail. spy L :- '$get_value'('$spypoint_added', false), !. spy L :- debug. nospy L :- '$suspy'(L,nospy), fail. nospy L. nospyall :- '$recorded'('$spy','$spy'(T,M),_), functor(T,F,N), '$suspy'(M:F/N,nospy), fail. nospyall. % debug mode -> debug flag = 1 debug :- '$get_value'(debug,1), !. debug :- '$set_value'(debug,1), write(user_error,'[ Debug mode on ]'), nl(user_error). nodebug :- nospyall, '$set_value'(debug,0), write(user_error,'[ Debug mode off ]'), nl(user_error). /*----------------------------------------------------------------------------- leash -----------------------------------------------------------------------------*/ leash(X) :- var(X), throw(error(instantiation_error,leash(X))). leash(X) :- '$leashcode'(X,Code), '$set_value'('$leash',Code), '$show_leash'(Code), !. leash(X) :- throw(error(type_error(leash_mode,X),leash(X))). '$show_leash'(0) :- write(user_error,'[ No leashing ]'), nl(user_error). '$show_leash'(L) :- '$leashcode'(Code,L), write(user_error,'[ Leashing set to '), write(user_error,Code), write(user_error,' ('), '$show_leash_bit'(WasWritten,2'1000,L,call), '$show_leash_bit'(WasWritten,2'0100,L,exit), '$show_leash_bit'(WasWritten,2'0010,L,redo), '$show_leash_bit'(WasWritten,2'0001,L,fail), write(user_error,') ]'), nl(user_error). '$show_leash_bit'(Was,Bit,Code,_) :- Bit /\ Code =:= 0, !. '$show_leash_bit'(Was,_,_,Name) :- var(Was), !, Was = yes, write(user_error,Name). '$show_leash_bit'(Was,_,_,Name) :- write(user_error,','), write(user_error,Name). '$leashcode'(full,2'1111) :- !. '$leashcode'(on,2'1111) :- !. '$leashcode'(half,2'1010) :- !. '$leashcode'(loose,2'1000) :- !. '$leashcode'(off,2'0000) :- !. %'$leashcode'([L|M],Code) :- !, '$leashcode_list'([L|M],Code). '$leashcode'([L|M],Code) :- !, ( var(Code) -> '$list2Code'([L|M],Code) ; '$code2List'(Code,[L|M]) ). '$leashcode'(N,N) :- integer(N), N >= 0, N =< 2'1111. '$list2Code'(V,_) :- var(V), !, throw(error(instantiation_error,leash(V))). '$list2Code'([],0) :- !. '$list2Code'([V|L],_) :- var(V), !, throw(error(instantiation_error,leash([V|L]))). '$list2Code'([call|L],N) :- '$list2Code'(L,N1), N is 2'1000 + N1. '$list2Code'([exit|L],N) :- '$list2Code'(L,N1), N is 2'0100 + N1. '$list2Code'([redo|L],N) :- '$list2Code'(L,N1), N is 2'0010 + N1. '$list2Code'([fail|L],N) :- '$list2Code'(L,N1), N is 2'0001 + N1. '$code2List'(0,[]) :- !. '$code2List'(N,[call|L]) :- X is N /\ 2'1000, X \= 0, !, M is N-X, '$code2List'(M,L). '$code2List'(N,[exit|L]) :- X is N /\ 2'0100, X \= 0, !, M is N-X, '$code2List'(M,L). '$code2List'(N,[redo|L]) :- X is N /\ 2'0010, X \= 0, !, M is N-X, '$code2List'(M,L). '$code2List'(N,[fail|L]) :- X is N /\ 2'0001, X \= 0, !, M is N-X, '$code2List'(M,L). /*----------------------------------------------------------------------------- debugging -----------------------------------------------------------------------------*/ debugging :- '$get_value'(debug,1) -> write(user_error,'[ Debug mode is switched on ]') , nl(user_error), '$debugging_mode' ; write(user_error,'[ Debug mode is switched off ]') , nl(user_error) . '$debugging_mode' :- ( '$recorded'('$spy',_,_) -> '$show_spies' ; write(user_error,'[ Warning: there are no spy-points set ]') , nl(user_error) ), '$get_value'('$leash',Leash), '$show_leash'(Leash). '$show_spies' :- write(user_error,'[ Spy points set on :'), nl(user_error), ( '$recorded'('$spy','$spy'(T,M),_), functor(T,F,N), write(user_error,' '),write(user_error,M:F/N),nl(user_error), fail ; write(user_error,' ]'), nl(user_error) ). /*----------------------------------------------------------------------------- spy -----------------------------------------------------------------------------*/ % This is executed before from the abstract % machine when the spy_flag is on % these flags are used % flag description initial/possible values % spy_gn goal number 1 1... % spy_creep creep 0 0, 1 % spy_sl skip level 0 0... % spy_sp skip port 0 0, call, fail, redo, exit % spy_leap leap 0 0... % spy_cl clause number 1 1... % spy_fs fast skip 0 0, 1 % a flip-flop is also used % when 1 spying is enabled %'$spy'(G) :- write(user_error,'$spy'(G)), nl, fail. % % handle suspended goals % '$spy'(G) :- '$awoken_goals'(LG), !, '$creep', '$wake_up_goal'(G, LG). '$spy'([Module|G]) :- !, % write(user_error,$spym(M,G)), nl, ( Module=prolog -> '$spy'(G); '$mod_switch'(Module, '$spy'(G)) ). '$spy'(true) :- !, '$creep'. '$spy'('$cut_by'(M)) :- !, '$cut_by'(M). '$spy'(G) :- '$hidden'(G), !, /* dont spy hidden predicates */ '$creep', '$execute0'(G). '$spy'(G) :- % write(user_error,$spy(G)), nl, '$get_value'(debug,1), /* ditto if debug off */ '$get_value'(spy_fs,0), /* ditto if fast skipping */ ( '$access_yap_flags'(10,0) -> /* if not creeping ... */ '$pred_being_spied'(G) /* ... spy only if at a spy-point */ ; true ), % ( \+ '$undefined'(user_error_spy(_)) -> user_error_spy(G) ; % true ); !, /* you sure want to spy this ... */ '$get_value'(spy_gn,L), /* get goal no. */ L1 is L+1, /* bump it */ '$set_value'(spy_gn,L1), /* and save it globaly */ '$access_yap_flags'(10,SC), '$set_yap_flags'(10,1), /* set creep on */ '$get_value'(spy_cl,CL), /* save global clause no. */ '$current_module'(Module), repeat, /* we need this to be able to implement retry */ '$init_spy_cl'(G), '$trace'(call,G,L), /* inform about call port */ /* the following choice point is where the predicate is called */ ( '$get_value'(spy_sp,0), /* make sure we are not skipping*/ '$current_module'(_,Module), '$spycalls'(G,Res) /* go execute the predicate */ ; /* we get here when the predicate fails */ '$trace'(fail,G,L), /* inform at fail port */ '$get_value'(spy_sl,L2),/* make sure we are not ... */ L2 \= L, /* ... skiping to this level */ !, /* if not prepare to exit spy */ '$set_value'(spy_cl,CL),/* restore global value of clause no */ '$setflop'(0), '$set_creep'(SC), /* restore creep value */ '$cont_creep', fail ), /* and exit */ '$get_value'(spy_cl,Cla), /* save no. of clause to try */ ( var(Res), /* check not redoing */ '$trace'(exit,G,L), /* output message at exit */ '$get_value'(spy_sp,0), /* check not skipping */ '$set_creep'(SC), /* restore creep value */ '$set_value'(spy_cl,CL), /* restore clause no. */ '$setflop'(0), '$cont_creep'; /* exit */ /* we get here when we want to redo a goal */ '$set_value'(spy_cl,Cla),/* restore clause no. to try */ $current_module(_,Module), '$trace'(redo,G,L), /* inform user_error */ fail /* to backtrack to spycalls */ ). '$spy'(G) :- '$execute0'(G). /* this clause applies when we do not want to spy the goal */ '$cont_creep' :- '$access_yap_flags'(10,1), !, '$creep'. '$cont_creep'. '$set_creep'(0) :- !, '$set_yap_flags'(10,0). '$set_creep'(_). %'$spycalls'(G,_) :- write(user_error,'$spycalls'(G)), nl(user_error), fail. '$spycalls'([_|_],_) :- !, fail. '$spycalls'('!'(CP),_) :- '$spycalls'('$call'(!, CP, !),Res). '$spycalls'(Mod:G,Res) :- !, '$mod_switch'(Mod,'$spycalls'(G,Res)). '$spycalls'(repeat,Res) :- !, '$spycalls'('$call'(repeat, _, repeat),Res). '$spycalls'(fail,Res) :- !, '$spycalls'('$call'(fail, _, fail),Res). '$spycalls'(false,Res) :- !, '$spycalls'('$call'(false, _, false),Res). '$spycalls'(true,Res) :- !, '$spycalls'('$call'(true, _, true),Res). '$spycalls'(otherwise,Res) :- !, '$spycalls'('$call'(otherwise, _, otherwise),Res). '$spycalls'(\+ G,Res) :- !, CP is '$last_choice_pt', '$spycalls'('$call'((\+ G), CP, (\+ G)),Res). '$spycalls'(not(G),Res) :- !, CP is '$last_choice_pt', '$spycalls'('$call'(not(G), CP, not(G)),Res). '$spycalls'(not(G),Res) :- !, CP is '$last_choice_pt', '$spycalls'('$call'(not(G), CP, not(G)),Res). '$spycalls'(G,Res) :- % undefined predicate '$undefined'(G), !, functor(G,F,N), '$current_module'(M), ( '$recorded'('$import','$import'(S,M,F,N),_) -> '$spycalls'(S:G,Res) ; '$undefp'([M|G]) ). '$spycalls'(G,_) :- '$flags'(G,F,_), F /\ 8'50000 =\= 0, % Standard and C pred !, '$catch_spycall_stdpred'(G), (true; '$get_value'(spy_sp,P), P \= 0, !, fail), ( true; '$get_value'(spy_sp,P1), P1 \= 0, !, fail) . '$spycalls'(G,Res) :- % asserts and retracts can complicate live ( '$get_value'(spy_sp,0) -> true ; !, fail ), '$flags'(G,F,F), F /\ 16'2000 =\= 0, !, % dynamic procedure, immediate semantics repeat, '$db_last_age'(G,Max), '$get_value'(spy_cl,Cl), '$get_value'(spy_gn,L), Maxx is Max+1, '$set_value'(spy_cl,Maxx), ( Cl > Max -> !, fail ; true ), ( '$spycall_dynamic'(G,Cl) ; ('$get_value'(spy_gn,L) -> '$leave_creep', fail ; Res = redo ) ), ( true ; '$get_value'(spy_sp,P), P \= 0, !, fail ) . '$spycalls'(G,Res) :- ( '$get_value'(spy_sp,0) -> true ; !, fail ), '$flags'(G,F,F), F /\ 16'8 =\= 0, !, % dynamic procedure, logical update semantics '$hold_index'(G, Index, Max), % hold an index on the procedure state when we called this goal repeat, '$get_value'(spy_cl,Cl), '$get_value'(spy_gn,L), Maxx is Max+1, '$set_value'(spy_cl,Maxx), ( Cl > Max -> !, fail ; true), ( '$log_upd_spycall'(G,Cl,Index) ; ('$get_value'(spy_gn,L) -> '$leave_creep', fail ; % to backtrack to repeat Res = redo ) ), ( true ; '$get_value'(spy_sp,P), P \= 0, !, fail ) . '$spycalls'(G,Res) :- ( '$get_value'(spy_sp,0) -> true ; !, fail ), repeat, '$number_of_clauses'(G,Max), '$get_value'(spy_cl,Cl), '$get_value'(spy_gn,L), Maxx is Max+1, '$set_value'(spy_cl,Maxx), ( Cl > Max -> !, fail ; true), ( '$spycall'(G,Cl) ; ('$get_value'(spy_gn,L) -> '$leave_creep', fail ; % to backtrack to repeat Res = redo ) ), ( true ; '$get_value'(spy_sp,P), P \= 0, !, fail ) . '$spycall'(G,Cl) :- '$access_yap_flags'(10,0), !, '$setflop'(0), '$call_clause'(G,Cl). '$spycall'(G,Cl) :- '$setflop'(0), '$creepcallclause'(G,Cl). '$log_upd_spycall'(G,Cl,Index) :- '$access_yap_flags'(10,0), !, '$setflop'(0), '$call_log_updclause'(G,Cl,Index). '$log_upd_spycall'(G,Cl,Index) :- '$setflop'(0), '$creepcall_log_upd_clause'(G,Cl,Index). % this is to be used only for dynamic predicates '$spycall_dynamic'(G,Cl) :- '$access_yap_flags'(10,0), !, '$setflop'(0), '$call_dynamic_clause'(G,Cl). '$spycall_dynamic'(G,Cl) :- '$setflop'(0), '$creepcall_dynamic_clause'(G,Cl). '$catch_spycall_stdpred'(G) :- '$system_catch'('$spycall_stdpred'(G), Error, user:'$DebugError'(Error)). '$spycall_stdpred'(G) :- functor(G,F,N), ( '$recorded'('$meta_predicate','$meta_predicate'(Mod,F,N,D),_) -> '$setflop'(1), '$creep', '$execute0'(G) ; '$setflop'(1), '$execute0'(G) ), '$setflop'(0). '$call_clause'(G,Cl) :- '$system_catch'('$do_execute_clause'(G,Cl),Error,user:'$DebugError'(Error)). '$do_execute_clause'(G,Cl) :- '$some_recordedp'(G), !, '$check_depth_for_interpreter'(D), ('$undefined'('$set_depth_limit'(_)) -> true ; '$set_depth_limit'(D)), CP is '$last_choice_pt', ( '$fetch_clause'(G,Cl,Clause), (Clause = true -> true ; '$debug_catch_call'(Clause,CP) ) ; Next is Cl+1, '$set_value'(spy_cl,Next), fail ). '$do_execute_clause'(G,Cl) :- '$execute'(G,Cl) ; Next is Cl+1, '$set_value'(spy_cl,Next), fail. '$call_log_updclause'(G,Cl,Index) :- '$system_catch'('$do_execute_log_upd_clause'(G,Cl,Index),Error,user:'$DebugError'(Error)). '$do_execute_log_upd_clause'(G,Cl,Index) :- '$check_depth_for_interpreter'(D), ('$undefined'('$set_depth_limit'(_)) -> true ; '$set_depth_limit'(D)), CP is '$last_choice_pt', ( (Index = [] -> /* We have a single clause */ Cl = 1, clause(G, Clause) ; Cl1 is Cl-1, '$fetch_reference_from_index'(Index, Cl1, Ref), instance(Ref, (G :- Clause)) ), (Clause = true -> true ; '$debug_catch_call'(Clause,CP) ) ; Next is Cl+1, '$set_value'(spy_cl,Next), fail ). '$check_depth_for_interpreter'(10000000) :- '$undefined'(get_depth_limit(_)), !. '$check_depth_for_interpreter'(D1) :- get_depth_limit(D0), D0 =\= 0, D1 is D0-1. '$debug_catch_call'(Clause,CP) :- '$system_catch'('$call'(Clause,CP,Clause),Error,user:'$DebugError'(Error)). '$call_dynamic_clause'(G,Cl) :- '$system_catch'('$do_execute_dynamic_clause'(G,Cl),Error,user:'$DebugError'(Error)). '$do_execute_dynamic_clause'(G,Cl) :- '$check_depth_for_interpreter'(D), ('$undefined'('$set_depth_limit'(_)) -> true ; '$set_depth_limit'(D)), CP is '$last_choice_pt', ( '$db_nb_to_ref'(Cl,G,Ref), instance(Ref, (G :- Clause)), (Clause = true -> true ; '$debug_catch_call'(Clause,CP) ) ; Next is Cl+1, '$set_value'(spy_cl,Next), fail ). '$creepcallclause'(G,Cl) :- '$system_catch'('$do_creep_execute'(G,Cl),Error,user:'$DebugError'(Error)). '$do_creep_execute'(G,Cl) :- % fast skip should ignore source mode '$get_value'(spy_fs,0), '$some_recordedp'(G), !, '$check_depth_for_interpreter'(D), ('$undefined'('$set_depth_limit'(_)) -> true ; '$set_depth_limit'(D)), CP is '$last_choice_pt', ( '$fetch_clause'(G,Cl,Clause), (Clause = true -> true ; '$catch_creep_call'(Clause,CP) ) ; Next is Cl+1, '$set_value'(spy_cl,Next), fail ). '$do_creep_execute'(G,Cl) :- '$creep_execute'(G,Cl) ; Next is Cl+1, '$set_value'(spy_cl,Next), fail. '$creepcall_log_upd_clause'(G,Cl,Index) :- '$system_catch'('$do_creep_log_upd_execute'(G,Cl,Index),Error,user:'$DebugError'(Error)). '$do_creep_log_upd_execute'(G,Cl,Index) :- '$check_depth_for_interpreter'(D), ('$undefined'('$set_depth_limit'(_)) -> true ; '$set_depth_limit'(D)), ( CP is '$last_choice_pt', (Index = [] -> /* We have a single clause */ Cl = 1, clause(G, Clause) ; Cl1 is Cl-1, '$fetch_reference_from_index'(Index, Cl1, Ref), instance(Ref, (G :- Clause)) ), (Clause = true -> true ; % otherwise fast skip may try to interpret assembly builtins. '$get_value'(spy_fs,1) -> '$debug_catch_call'(Clause,CP) ; '$catch_creep_call'(Clause,CP) ) ; Next is Cl+1, '$set_value'(spy_cl,Next), fail ). '$catch_creep_call'(Clause,CP) :- '$system_catch'('$creep_call'(Clause,CP),Error,user:'$DebugError'(Error)). '$creepcall_dynamic_clause'(G,Cl) :- '$system_catch'('$do_creep_execute_dynamic'(G,Cl),Error,user:'$DebugError'(Error)). '$do_creep_execute_dynamic'(G,Cl) :- '$check_depth_for_interpreter'(D), ('$undefined'('$set_depth_limit'(_)) -> true ; '$set_depth_limit'(D)), CP is '$last_choice_pt', ( '$db_nb_to_ref'(Cl,G,Ref), instance(Ref, (G :- Clause)), (Clause = true -> true ; % otherwise fast skip may try to interpret assembly builtins. '$get_value'(spy_fs,1) -> '$debug_catch_call'(Clause,CP) ; '$catch_creep_call'(Clause,CP) ) ; Next is Cl+1, '$set_value'(spy_cl,Next), fail ). '$leave_creep'. '$creep_execute'(G,Cl) :- '$creep', '$execute'(G,Cl). '$fetch_clause'(G,ClNum,Body) :- % I'd like an easier way to keep a counter '$set_value'('$fetching_clauses',1), '$recordedp'(G,Clause,_), '$get_value'('$fetching_clauses',Num), ( Num = ClNum -> !, Clause = (G :- Body) ; Num1 is Num+1, '$set_value'('$fetching_clauses',Num1), fail ). %'$creep_call'(G,_) :- write(user_error,'$creepcall'(G)), nl(user_error), fail. '$creep_call'(V,_) :- var(V), !, throw(error(instantiation_error,meta_call(V))). '$creep_call'(A,_) :- number(A), !, throw(error(type_error(callable,A),meta_call(A))). '$creep_call'(R,_) :- db_reference(R), !, throw(error(type_error(callable,R),meta_call(R))). '$creep_call'(M:G,CP) :- !, '$mod_switch'(M, '$creep_call'(G,CP)), '$current_module'(Module), '$spy'([Module|fail]). '$creep_call'(fail,_) :- !, '$current_module'(Module), '$spy'([Module|fail]). '$creep_call'(false,_) :- !, '$current_module'(Module), '$spy'([Module|false]). '$creep_call'(true,_) :- !, '$current_module'(Module), '$spy'([Module|true]). '$creep_call'(otherwise,_) :- !, '$current_module'(Module), '$spy'([Module|otherwise]). '$creep_call'((A,B),CP) :- !, '$creep_call'(A,CP), '$creep_call'(B,CP). '$creep_call'((X->Y; Z),CP) :- !, ( '$creep_call'(X,CP), !, '$creep_call'(Y,CP); '$creep_call'(Z,CP)). '$creep_call'((A;B),CP) :- !, ('$creep_call'(A,CP) ; '$creep_call'(B,CP)). '$creep_call'((A|B),CP) :- !, ('$creep_call'(A,CP) ; '$creep_call'(B,CP)). '$creep_call'(atom(A),_) :- !, '$current_module'(Module), '$spy'([Module|atom(A)]). '$creep_call'(atomic(A),_) :- !, '$current_module'(Module), '$spy'([Module|atomic(A)]). '$creep_call'(integer(A),_) :- !, '$current_module'(Module), '$spy'([Module|integer(A)]). '$creep_call'(nonvar(A),_) :- !, '$current_module'(Module), '$spy'([Module|nonvar(A)]). '$creep_call'(var(A),_) :- !, '$current_module'(Module), '$spy'([Module|var(A)]). '$creep_call'(number(A),_) :- !, '$current_module'(Module), '$spy'([Module|number(A)]). '$creep_call'(prismitive(A),_) :- !, '$current_module'(Module), '$spy'([Module|primitive(A)]). '$creep_call'(compound(A),_) :- !, '$current_module'(Module), '$spy'([Module|compound(A)]). '$creep_call'(float(A),_) :- !, '$current_module'(Module), '$spy'([Module|float(A)]). '$creep_call'(db_reference(A),_) :- !, '$current_module'(Module), '$spy'([Module|db_reference(A)]). '$creep_call'(\+ X,_) :- !, '$current_module'(Module), '$spy'([Module|(\+ X)]). '$creep_call'(not X,_) :- !, '$current_module'(Module), '$spy'([Module|not(X)]). '$creep_call'(X=Y,_) :- !, '$current_module'(Module), '$spy'([Module|X=Y]). '$creep_call'(X\=Y,_) :- !, '$current_module'(Module), '$spy'([Module|X\=Y]). '$creep_call'(X==Y,_) :- !, '$current_module'(Module), '$spy'([Module|X==Y]). '$creep_call'(X>Y,_) :- !, '$current_module'(Module), '$spy'([Module|X>Y]). '$creep_call'(X>=Y,_) :- !, '$current_module'(Module), '$spy'([Module|X>=Y]). '$creep_call'(XY),CP) :- !, CP1 is '$last_choice_pt', '$creep_call'(X,CP), '$$cut_by'(CP1), '$creep_call'(Y,CP). '$creep_call'(!,CP) :- !, '$current_module'(M), '$spy'([M|'!'(CP)]), % clean up any garbage left here by the debugger. '$$cut_by'(CP). '$creep_call'('$cut_by'(X),CP) :- !, '$$cut_by'(X). '$creep_call'(repeat,_) :- !, '$current_module'(M), '$spy'([Module|repeat]). '$creep_call'([A|B],_) :- !, '$current_module'(M), '$spy'([Module|[A|B]]). '$creep_call'(A,CP) :- '$undefined'(A), functor(A,F,N), '$current_module'(M), '$recorded'($import,$import(S,M,F,N),_), !, '$creep_call'(S:A,CP). '$creep_call'(G,_) :- '$undefined'(G), !, ( \+ '$undefined'(user:unknown_predicate_handler(_,_,_)), user:unknown_predicate_handler(G,M,NG) -> '$creep_call'(M:NG) ; '$is_dynamic'(G) -> fail ; '$recorded'('$unknown','$unknown'(M:G,US),_), '$creep_call'(user:US,_) ). '$creep_call'(A,CP) :- '$current_module'(Module), '$spy'([Module|A]). %'$creep'(G) :- $current_module(M),write(user_error,[creep,M,G]),nl(user_error),fail. '$creep'(G) :- '$get_value'('$alarm', true), !, '$set_value'('$alarm', []), ( '$recorded'('$alarm_handler',A,_) -> '$execute'(A), G=[M|Goal] ; true ), '$execute'(M:Goal). '$creep'(G) :- '$get_value'('$throw', true), !, '$set_value'('$throw', false), abort. '$creep'([Module|'$trace'(P,G,L)]) :- !, ( Module=prolog -> '$trace'(P,G,L); '$mod_switch'(Module, '$trace'(P,G,L)) ). '$creep'([Module|'$creep_call'(G,CP)]) :- !, ( Module=prolog -> '$creep_call'(G,CP); '$mod_switch'(Module, '$creep_call'(G,P) ) ). '$creep'([_|'$leave_creep']) :- !. '$creep'(G) :- '$spy'(G). '$trace'(P,'!'(_),L) :- !, '$trace'(P,!,L). '$trace'(P,G,L) :- '$chk'(P,L,G,SL), '$msg'(P,G,L,SL). '$trace'(_,_,_). '$msg'(P,G,L,SL):- flush_output(user_output), flush_output(user_error), '$get_value'(debug,1), repeat, ('$pred_being_spied'(G) -> write(user_error,'*') ; write(user_error,' ')), ( SL = L -> write(user_error,'>') ; write(user_error,' ')), write(user_error,' ('), write(user_error,L), write(user_error,') '), write(user_error,P), write(user_error,': '), ( $current_module(Module), Module\=prolog, Module\=user -> write(user_error,Module),write(user_error,':'); true ), '$debugger_write'(user_error,G), ( '$unleashed'(P), nl(user_error) ; write(user_error,' ? '), get0(user_input,C), '$action'(C,P,L,G), '$skipeol'(C) ) , !, fail. '$unleashed'(call) :- '$get_value'('$leash',L), L /\ 2'1000 =:= 0. '$unleashed'(exit) :- '$get_value'('$leash',L), L /\ 2'0100 =:= 0. '$unleashed'(redo) :- '$get_value'('$leash',L), L /\ 2'0010 =:= 0. '$unleashed'(fail) :- '$get_value'('$leash',L), L /\ 2'0001 =:= 0. '$debugger_write'(Stream,G) :- '$recorded'('$debug_depth',D,_), !, write_depth(OS,OL), write_depth(D,D), '$write_deb2'(Stream,G), write_depth(OS,OL). '$debugger_write'(Stream,G) :- '$write_deb2'(Stream,G). '$write_deb2'(Stream, G) :- '$recorded'('$print_options','$debugger'(OUT),_), !, write_term(Stream, G, OUT). '$write_deb2'(Stream, G) :- writeq(Stream, G). /* '$chk'(P,L,G,_) :- '$get_value'(spy_leap,Leap), '$get_value'(spy_sp,SP), '$access_yap_flags'(10,SC), '$get_value'(spy_sl,SL), '$get_value'(spy_fs,FS), '$get_value'(spy_cl,CL), write(user_error,[chk,L,P,Leap,SP,SC,SL,FS,CL,G]), nl(user_error), fail. */ '$chk'(_,_,[_|_],_) :- !, fail. '$chk'(P,L,G,SL) :- '$get_value'(spy_leap,Leap), (Leap = 0 -> true; % not leaping ('$pred_being_spied'(G) ; Leap = L), % leaping or quasileaping '$set_value'(spy_leap,0) ), '$get_value'(spy_sp,SP), (SP = 0; SP = P), % the current skipport or no skipport '$access_yap_flags'(10,SC), (SC = 1; '$pred_being_spied'(G)), '$get_value'(spy_sl,SL), (SL = 0; SL = L, '$set_value'(spy_sl,0), '$set_value'(spy_fs,0)), '$set_value'(spy_sp,0), !. '$skipeol'(10) :- !. '$skipeol'(_) :- get0(user,C), '$skipeol'(C). '$action'(10,_,_,_) :- !, % newline creep '$set_yap_flags'(10,1). '$action'(33,_,_,_) :- !, % ! g execute read(user,G), % don't allow yourself to be caught by creep. '$access_yap_flags'(10, CL), '$set_yap_flags'(10, 0), ( '$execute'(G) -> true ; true), '$set_yap_flags'(10, CL), !, fail. '$action'(60,_,_,_) :- !, % true ; CN = [] ). '$deb_inc_in_sterm_oldie'(C,[],C). '$get_sterm_list'(L0,C,N,L) :- ( C =:= "^", N \== 0 -> get0(CN), '$get_sterm_list'([N|L0],CN,0,L) ; C >= "0", C =< "9" -> NN is 10*N+C-"0", get0(CN), '$get_sterm_list'(L0,CN,NN,L); C =:= 10 -> (N =:= 0 -> L = L0 ; L=[N|L0]) ). '$deb_get_sterm_in_g'([],G,G). '$deb_get_sterm_in_g'([H|T],G,A) :- '$deb_get_sterm_in_g'(T,G,A1), arg(H,A1,A). '$new_deb_depth' :- '$get_deb_depth'(0,D), ( '$recorded'('$debug_depth',_,R) -> erase(R) ; true ), ( D \= 0 -> recorda('$debug_depth',D,_) ), fail. '$get_deb_depth'(X0,XF) :- get0(user_input,C), '$get_depth_handle_char'(C,X0,XF). '$get_depth_handle_char'(10,X,X) :- !. '$get_depth_handle_char'(C,X0,XF) :- C >= "0", C =< "9", !, XI is X0*10+C-"0", '$get_deb_depth'(XI,XF). '$get_depth_handle_char'(C,X,X) :- '$skipeol'(C). '$DebugError'(error(Msg, Where )) :- !, '$output_error_message'(Msg, Where), !, fail. % % do not try to handle other throws or aborts. % '$DebugError'(T) :- !, throw(T). '$init_spy_cl'(G) :- % dynamic, immediate update procedure. '$flags'(G,F,F), F /\ 16'2000 =\= 0, !, ( '$db_first_age'(G,A) -> '$set_value'(spy_cl, A) ; % no clauses for pred. '$set_value'(spy_cl, 1) ). '$init_spy_cl'(_) :- '$set_value'(spy_cl, 1).