/************************************************************************* * * * YAP Prolog * * * * Yap Prolog was developed at NCCUP - Universidade do Porto * * * * Copyright L.Damas, V.S.Costa and Universidade do Porto 1985-1997 * * * ************************************************************************** * * * File: modules.pl * * Last rev: * * mods: * * comments: module support * * * *************************************************************************/ % module handling :- '$switch_log_upd'(1). use_module(M) :- '$use_module'(M). '$use_module'(V) :- var(V), !, throw(error(instantiation_error,use_module(V))). '$use_module'([]) :- !. '$use_module'([A|B]) :- !, '$use_module'(A), '$use_module'(B). '$use_module'(M:F) :- atom(M), !, '$current_module'(M0), '$change_module'(M), '$use_module'(F), '$change_module'(M0). '$use_module'(File) :- '$find_in_path'(File,X,use_module(File)), !, ( '$recorded'('$module','$module'(_,X,Publics),_) -> '$use_module'(File,Publics) ; '$ensure_loaded'(File) ). '$use_module'(File) :- throw(error(permission_error(input,stream,File),use_module(File))). use_module(M,I) :- '$use_module'(M, I). '$use_module'(File,Imports) :- var(File), !, throw(error(instantiation_error,use_module(File,Imports))). '$use_module'(File,Imports) :- var(Imports), !, throw(error(instantiation_error,use_module(File,Imports))). '$use_module'(M:F, Imports) :- atom(M), !, '$current_module'(M0), '$change_module'(M), '$use_module'(F, Imports), '$change_module'(M0). '$use_module'(File,Imports) :- '$current_module'(M), '$find_in_path'(File,X,use_module(File,Imports)), !, '$open'(X,'$csult',Stream,0), !, '$consulting_file_name'(Stream,TrueFileName), ( '$loaded'(Stream) -> true ; '$record_loaded'(Stream), % the following avoids import of all public predicates '$recorda'('$importing','$importing'(TrueFileName),R), '$reconsult'(File,Stream) ), '$close'(Stream), ( var(R) -> true; erased(R) -> true; erase(R)), ( '$recorded'('$module','$module'(TrueFileName,Mod,Publics),_) -> '$use_preds'(Imports,Publics,Mod,M) ; '$format'(user_error,"[ use_module/2 can not find a module in file ~w]~n",File), fail ). '$use_module'(File,Imports) :- throw(error(permission_error(input,stream,File),use_module(File,Imports))). use_module(Mod,F,I) :- '$use_module'(Mod,F,I). '$use_module'(Module,M:File,Imports) :- !, atom(M), !, '$current_module'(M0), '$change_module'(M), '$use_module'(Module,File,Imports), '$change_module'(M0). '$use_module'(Module,File,Imports) :- '$find_in_path'(File,X,use_module(Module,File,Imports)), '$open'(X,'$csult',Stream,0), !, '$consulting_file_name'(Stream,TrueFileName), '$current_module'(M), ( '$loaded'(Stream) -> true ; '$record_loaded'(Stream), % the following avoids import of all public predicates '$recorda'('$importing','$importing'(TrueFileName),R), '$reconsult'(File,Stream) ), '$close'(Stream), ( var(R) -> true; erased(R) -> true; erase(R)), ( '$recorded'('$module','$module'(TrueFileName,Module,Publics),_) -> '$use_preds'(Imports,Publics,Module,M) ; '$format'(user_error,"[ use_module/2 can not find module ~w in file ~w]~n",[Module,File]), fail ). '$use_module'(Module,File,Imports) :- throw(error(permission_error(input,stream,File),use_module(Module,File,Imports))). '$consulting_file_name'(Stream,F) :- '$file_name'(Stream, F). '$module'(reconsult,N,P) :- !, '$abolish_module_data'(N), '$module_dec'(N,P). '$module'(consult,N,P) :- ( '$recorded'('$module','$module'(F,N,_),_), '$format'(user_error,"[ Module ~w was already defined in file ~w]~n",[N,F]), '$abolish_module_data'(N), fail ; true ), '$module_dec'(N,P). '$module'(O,N,P,Opts) :- !, '$module'(O,N,P), '$process_module_decls_options'(Opts,module(Opts,N,P)). '$process_module_decls_options'(Var,Mod) :- var(Var), throw(error(instantiation_error,Mod)). '$process_module_decls_options'([],_). '$process_module_decls_options'([H|L],M) :- '$process_module_decls_option'(H,M), '$process_module_decls_options'(L,M). '$process_module_decls_options'(T,M) :- throw(error(type_error(list,T),M)). '$process_module_decls_option'(Var,M) :- var(Var), throw(error(instantiation_error,M)). '$process_module_decls_option'(At,_) :- atom(At), '$use_module'(At). '$process_module_decls_option'(library(L),_) :- '$use_module'(library(L)). '$process_module_decls_option'(hidden(Bool),M) :- '$process_hidden_module'(Bool, M). '$process_module_decls_option'(Opt,M) :- throw(error(domain_error(module_decl_options,Opt),M)). '$process_hidden_module'(TNew,M) :- '$convert_true_off_mod3'(TNew, New, M), source_mode(Old, New), '$prepare_restore_hidden'(Old,New). '$convert_true_off_mod3'(true, off, _). '$convert_true_off_mod3'(false, on, _). '$convert_true_off_mod3'(X, _, M) :- throw(error(domain_error(module_decl_options,hidden(X)),M)). '$prepare_restore_hidden'(Old,Old) :- !. '$prepare_restore_hidden'(Old,New) :- '$recorda'('$system_initialisation', source_mode(New,Old), _). module(N) :- var(N), throw(error(instantiation_error,module(N))). module(N) :- atom(N), !, '$current_module'(_,N), '$get_value'('$consulting_file',F), ( recordzifnot('$module','$module'(N),_) -> true; true), ( recorded('$module','$module'(F,N,[]),_) -> true ; recorda('$module','$module'(F,N,[]),_) ). module(N) :- throw(error(type_error(atom,N),module(N))). '$module_dec'(N,P) :- '$current_module'(Old,N), '$get_value'('$consulting_file',F), ( recordzifnot('$module','$module'(N),_) -> true; true), recorda('$module','$module'(F,N,P),_), ( '$recorded'('$importing','$importing'(F),_) -> true ; '$import'(P,N,Old) ). '$import'([],_,_) :- !. '$import'([N/K|L],M,T) :- integer(K), atom(N), !, ( '$check_import'(M,T,N,K) -> % '$format'(user_error,"[vsc1: Importing ~w to ~w]~n",[M:N/K,T]), ( T = user -> ( recordzifnot('$import','$import'(M,user,N,K),_) -> true ; true) ; ( recordaifnot('$import','$import'(M,T,N,K),_) -> true ; true ) ) ; true ), '$import'(L,M,T). '$import'([PS|L],M,T) :- '$format'(user_error,"[Illegal pred specification(~w) in module declaration for module ~w]~n",[PS,M]), '$import'(L,M,T). '$check_import'(M,T,N,K) :- '$recorded'('$import','$import'(M1,T0,N,K),R), T0 == T, M1 \= M, /* ZP */ !, '$format'(user_error,"NAME CLASH: ~w was already imported to module ~w;~n",[M1:N/K,T]), '$format'(user_error," Do you want to import it from ~w ? [y or n] ",M), repeat, get0(C), '$skipeol'(C), ( C is "y" -> erase(R), !; C is "n" -> !, fail; write(user_error, ' Please answer with ''y'' or ''n'' '), fail ). '$check_import'(_,_,_,_). % $use_preds(Imports,Publics,Mod,M) '$use_preds'(M:L,Publics,Mod,_) :- '$use_preds'(L,Publics,Mod,M). '$use_preds'([],_,_,_) :- !. '$use_preds'([P|Ps],Publics,Mod,M) :- !, '$use_preds'(P,Publics,Mod,M), '$use_preds'(Ps,Publics,Mod,M). '$use_preds'(N/K,Publics,M,Mod) :- ( '$member'(N/K,Publics) -> true ; print_message(warning,import(N/K,Mod,M,private)) ), ( '$check_import'(M,Mod,N,K) -> % '$format'(user_error,'[ Importing ~w to ~w]~n',[M:N/K,Mod]), % '$trace_module'(importing(M:N/K,Mod)), % '$format'(user_error,"[vsc2: Importing ~w to ~w]~n",[M:N/K,T]), (Mod = user -> ( recordzifnot('$import','$import'(M,user,N,K),_) -> true ; true ) ; ( recordaifnot('$import','$import'(M,Mod,N,K),_) -> true ; true ) ) ; true ). '$abolish_module_data'(M) :- '$current_module'(T), ( '$recorded'('$import','$import'(M,T0,_,_),R), T0 == T, erase(R), fail; true), '$recorded'('$module','$module'(_,M,_),R), erase(R), fail. '$abolish_module_data'(_). % expand module names in a clause '$module_expansion'(((Mod:H) :-B ),((Mod:H) :- B1),((Mod:H) :- BO),M) :- !, '$prepare_body_with_correct_modules'(B, M, B0), '$module_u_vars'(H,UVars,M), % collect head variables in % expanded positions '$module_expansion'(B0,B1,BO,M,M,M,UVars). % expand body '$module_expansion'((H:-B),(H:-B1),(H:-BO),M) :- '$module_u_vars'(H,UVars,M), % collect head variables in % expanded positions '$module_expansion'(B,B1,BO,M,M,M,UVars). % expand body % $trace_module((H:-B),(H:-B1)). % expand module names in a body '$prepare_body_with_correct_modules'(V,M,call(M:V)) :- var(V), !. '$prepare_body_with_correct_modules'((A,B),M,(A1,B1)) :- !, '$prepare_body_with_correct_modules'(A,M,A1), '$prepare_body_with_correct_modules'(B,M,B1). '$prepare_body_with_correct_modules'((A;B),M,(A1;B1)) :- !, '$prepare_body_with_correct_modules'(A,M,A1), '$prepare_body_with_correct_modules'(B,M,B1). '$prepare_body_with_correct_modules'((A->B),M,(A1->B1)) :- !, '$prepare_body_with_correct_modules'(A,M,A1), '$prepare_body_with_correct_modules'(B,M,B1). '$prepare_body_with_correct_modules'(true,_,true) :- !. '$prepare_body_with_correct_modules'(fail,_,fail) :- !. '$prepare_body_with_correct_modules'(false,_,false) :- !. '$prepare_body_with_correct_modules'(M:G,_,M:G) :- !. '$prepare_body_with_correct_modules'(G,M,G) :- '$system_predicate'(G,M), !. '$prepare_body_with_correct_modules'(G,M,M:G). '$trace_module'(X) :- telling(F), tell('P0:debug'), write(X),nl, tell(F), fail. '$trace_module'(_). '$trace_module'(X,Y) :- X==Y, !. '$trace_module'(X,Y) :- telling(F), tell('~/.dbg.modules'), write('***************'), nl, portray_clause(X), portray_clause(Y), tell(F),fail. '$trace_module'(_,_). % % calling the meta-call expansion facility and expand_goal from % a meta-call. % '$expand_goal'(G0, GoalMod, CurMod, G, NM) :- '$meta_expansion'(GoalMod, CurMod, G0, GF, []), !, '$expand_goal2'(GF,GoalMod,G,NM). '$expand_goal'(G, GoalMod, _, NG, NM) :- '$expand_goal2'(G, GoalMod, NG, NM). '$expand_goal2'(G, M, NG, NM) :- '$undefined'(G,M), functor(G,F,N), '$recorded'('$import','$import'(ExportingMod,M,F,N),_), ExportingMod \= M, !, '$expand_goal2'(G, ExportingMod, NG, NM). '$expand_goal2'(G, M, GF, M) :- '$pred_goal_expansion_on', user:goal_expansion(G,M,GF), !. '$expand_goal2'(G, M, G, M). % expand module names in a body % args are: % goals to expand % code to pass to compiler % code to pass to listing % current module for looking up preds % current module for fixing up meta-call arguments % current module for predicate % head variables. '$module_expansion'(V,call(MM:V),call(MM:V),_M,MM,_TM,_) :- var(V), !. '$module_expansion'((A,B),(A1,B1),(AO,BO),M,MM,TM,HVars) :- !, '$module_expansion'(A,A1,AO,M,MM,TM,HVars), '$module_expansion'(B,B1,BO,M,MM,TM,HVars). '$module_expansion'((A;B),(A1;B1),(AO;BO),M,MM,TM,HVars) :- !, '$module_expansion'(A,A1,AO,M,MM,TM,HVars), '$module_expansion'(B,B1,BO,M,MM,TM,HVars). '$module_expansion'((A->B),(A1->B1),(AO->BO),M,MM,TM,HVars) :- !, '$module_expansion'(A,A1,AO,M,MM,TM,HVars), '$module_expansion'(B,B1,BO,M,MM,TM,HVars). '$module_expansion'(true,true,true,_,_,_,_) :- !. '$module_expansion'(fail,fail,fail,_,_,_,_) :- !. '$module_expansion'(false,false,false,_,_,_,_) :- !. % if I don't know what the module is, I cannot do anything to the goal, % so I just put a call for later on. '$module_expansion'(M:G,call(M:G),call(M:G),_,_,_,_) :- var(M), !. '$module_expansion'(M:G,G1,GO,_,_,TM,HVars) :- '$module_expansion'(G,G1,GO,M,M,TM,HVars). % if M1 is given explicitly process G within M1's context. % '$module_expansion'(M:G,G1,GO,_Mod,_MM,TM,HVars) :- !, % % is this imported from some other module M1? % ( '$imported_pred'(G, M, M1) -> % % continue recursively... % '$module_expansion'(G,G1,GO,M1,M,TM,HVars) % ; % ( % '$meta_expansion'(M, M, G, NG, HVars) % ; % G = NG % ), % '$complete_goal_expansion'(NG, M, M, TM, G1, GO, HVars) % ). % % next, check if this is something imported. % '$module_expansion'(G, G1, GO, CurMod, MM, TM, HVars) :- % is this imported from some other module M1? ( '$imported_pred'(G, CurMod, M1) -> '$module_expansion'(G, G1, GO, M1, MM, TM, HVars) ; ( '$meta_expansion'(CurMod, MM, G, GI, HVars) ; GI = G ), '$complete_goal_expansion'(GI, CurMod, MM, TM, G1, GO, HVars) ). '$imported_pred'(G, ImportingMod, ExportingMod) :- '$undefined'(G, ImportingMod), functor(G,F,N), '$recorded'('$import','$import'(ExportingMod,ImportingMod,F,N),_), ExportingMod \= ImportingMod. % args are: % goal to expand % current module for looking up pred % current module from top-level clause % goal to pass to compiler % goal to pass to listing % head variables. '$complete_goal_expansion'(G, M, CM, TM, G1, G2, HVars) :- '$pred_goal_expansion_on', user:goal_expansion(G,M,GI), !, '$module_expansion'(GI,G1,G2,M,CM,TM,HVars). '$complete_goal_expansion'(G, _, _, M, G, GF, _) :- '$system_predicate'(G,M), !, '$c_built_in'(G,GF). '$complete_goal_expansion'(G, Mod, _, Mod, G, G, _) :- !. '$complete_goal_expansion'(G, GMod, _, _, GMod:G, GMod:G, _). % meta_predicate declaration % records $meta_predicate(SourceModule,Functor,Arity,Declaration) % directive now meta_predicate Ps :- $meta_predicate(Ps). :- dynamic user:'$meta_predicate'/4. '$meta_predicate'((P,Ps), M) :- !, '$meta_predicate'(P, M), '$meta_predicate'(Ps, M). '$meta_predicate'(M:D, _) :- !, '$meta_predicate'(D, M). '$meta_predicate'(P, M1) :- functor(P,F,N), ( M1 = prolog -> M = _ ; M1 = M), ( retractall(user:'$meta_predicate'(F,M,N,_)), fail ; true), asserta(user:'$meta_predicate'(F,M,N,P)), '$flags'(P, M1, Fl, Fl), NFlags is Fl \/ 0x200000, '$flags'(P, M1, Fl, NFlags). % return list of vars in expanded positions on the head of a clause. % % these variables should not be expanded by meta-calls in the body of the goal. % '$module_u_vars'(H,UVars,M) :- functor(H,F,N), user:'$meta_predicate'(F,M,N,D), !, '$module_u_vars'(N,D,H,UVars). '$module_u_vars'(_,[],_). '$module_u_vars'(0,_,_,[]) :- !. '$module_u_vars'(I,D,H,[Y|L]) :- arg(I,D,X), ( X=':' ; integer(X)), arg(I,H,Y), var(Y), !, I1 is I-1, '$module_u_vars'(I1,D,H,L). '$module_u_vars'(I,D,H,L) :- I1 is I-1, '$module_u_vars'(I1,D,H,L). % expand arguments of a meta-predicate % $meta_expansion(ModuleWhereDefined,CurrentModule,Goal,ExpandedGoal,MetaVariables) '$meta_expansion'(Mod,MP,G,G1,HVars) :- functor(G,F,N), user:'$meta_predicate'(F,Mod,N,D), !, functor(G1,F,N), % '$format'(user_error,"[expanding ~w:~w in ~w",[Mod,G,MP]), '$meta_expansion_loop'(N,D,G,G1,HVars,MP). % '$format'(user_error," gives ~w~n]",[G1]). % expand argument '$meta_expansion_loop'(0,_,_,_,_,_) :- !. '$meta_expansion_loop'(I,D,G,G1,HVars,M) :- arg(I,D,X), (X==':' ; integer(X)), arg(I,G,A), '$do_expand'(A,HVars), !, '$process_expanded_arg'(A, M, NA), arg(I,G1,NA), I1 is I-1, '$meta_expansion_loop'(I1,D,G,G1,HVars,M). '$meta_expansion_loop'(I,D,G,G1,HVars,M) :- arg(I,G,A), arg(I,G1,A), I1 is I-1, '$meta_expansion_loop'(I1,D,G,G1,HVars,M). % check if an argument should be expanded '$do_expand'(V,HVars) :- var(V), !, '$not_in_vars'(V,HVars). '$do_expand'(_:_,_) :- !, fail. '$do_expand'(_,_). '$process_expanded_arg'(V, M, M:V) :- var(V), !. '$process_expanded_arg'((V1,V2), M, (NV1,NV2)) :- !, '$process_expanded_arg'(V1, M, NV1), '$process_expanded_arg'(V2, M, NV2). '$process_expanded_arg'((V1;V2), M, (NV1;NV2)) :- !, '$process_expanded_arg'(V1, M, NV1), '$process_expanded_arg'(V2, M, NV2). '$process_expanded_arg'((V1|V2), M, (NV1|NV2)) :- !, '$process_expanded_arg'(V1, M, NV1), '$process_expanded_arg'(V2, M, NV2). '$process_expanded_arg'((V1->V2), M, (NV1->NV2)) :- !, '$process_expanded_arg'(V1, M, NV1), '$process_expanded_arg'(V2, M, NV2). '$process_expanded_arg'(\+V, M, \+NV) :- !, '$process_expanded_arg'(V, M, NV). '$process_expanded_arg'(M:A, _, M:A) :- !. %'$process_expanded_arg'(G, M, G) :- % '$system_predicate'(G,M), !. '$process_expanded_arg'(A, M, M:A). '$not_in_vars'(_,[]). '$not_in_vars'(V,[X|L]) :- X\==V, '$not_in_vars'(V,L). current_module(Mod) :- '$recorded'('$module','$module'(Mod),_). current_module(Mod,TFN) :- '$recorded'('$module','$module'(TFN,Mod,_Publics),_). source_module(Mod) :- '$current_module'(Mod). '$member'(X,[X|_]) :- !. '$member'(X,[_|L]) :- '$member'(X,L). :- meta_predicate % [:,:], abolish(:), abolish(:,+), all(?,:,?), assert(:), assert(:,+), asserta(:), asserta(:,+), assertz(:), assertz(:,+), bagof(?,:,?), bb_get(:,-), bb_put(:,+), bb_delete(:,?), bb_update(:,?,?), call(:), call_with_args(:), call_with_args(:,?), call_with_args(:,?,?), call_with_args(:,?,?,?), call_with_args(:,?,?,?,?), call_with_args(:,?,?,?,?,?), call_with_args(:,?,?,?,?,?,?), call_with_args(:,?,?,?,?,?,?,?), call_with_args(:,?,?,?,?,?,?,?,?), call_with_args(:,?,?,?,?,?,?,?,?,?), catch(:,+,:), clause(:,?), clause(:,?,?), compile(:), consult(:), current_predicate(:), current_predicate(?,:), ensure_loaded(:), findall(?,:,?), findall(?,:,?,?), if(:,:,:), incore(:), listing(:), nospy(:), not(:), phrase(:,?), phrase(:,?,+), predicate_property(:,?), on_exception(+,:,:), reconsult(:), retract(:), retract(:,?), retractall(:), reconsult(:), setof(?,:,?), spy(:), unknown(+,:), use_module(:), use_module(:,?), use_module(?,:,?), ^(+,:), \+(:). % % if we are asserting something in somewhere else's module, % we need this little bird. % % assert((a:g :- b)) then SICStus compiles this into the original module. % YAP is not 100% compatible, as it will transform this into: % a:assert(g :- user:b)) % '$preprocess_clause_before_mod_change'((H:-B),M,M1,(H:-B1)) :- '$module_u_vars'(H,UVars,M1), '$preprocess_body_before_mod_change'(B,M,UVars,B1). '$preprocess_body_before_mod_change'(V,M,_,call(M:V)) :- var(V), !. '$preprocess_body_before_mod_change'((G1,G2),M,UVars,(NG1,NG2)) :- !, '$preprocess_body_before_mod_change'(G1,M,UVars,NG1), '$preprocess_body_before_mod_change'(G2,M,UVars,NG2). '$preprocess_body_before_mod_change'((G1;G2),M,UVars,(NG1;NG2)) :- !, '$preprocess_body_before_mod_change'(G1,M,UVars,NG1), '$preprocess_body_before_mod_change'(G2,M,UVars,NG2). '$preprocess_body_before_mod_change'((G1->G2),M,UVars,(NG1->NG2)) :- !, '$preprocess_body_before_mod_change'(G1,M,UVars,NG1), '$preprocess_body_before_mod_change'(G2,M,UVars,NG2). '$preprocess_body_before_mod_change'(M:G,_,_,M:G) :- !. '$preprocess_body_before_mod_change'(true,_,_,true) :- !. '$preprocess_body_before_mod_change'(fail,_,_,fail) :- !. '$preprocess_body_before_mod_change'(false,_,_,false) :- !. '$preprocess_body_before_mod_change'(G,M,UVars,M:NG) :- '$meta_expansion'(M, M, G, NG, UVars), !. '$preprocess_body_before_mod_change'(G,M,_,G) :- '$system_predicate'(G,M), !. '$preprocess_body_before_mod_change'(G,M,_,M:G). :- '$switch_log_upd'(0).