695 lines
20 KiB
Prolog
695 lines
20 KiB
Prolog
/***********************************************************
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load a program into a graph, but do not actually consult it.
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***********************************************************/
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load( D, _OMAP ) :-
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working_directory(_, D),
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fail.
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load( _, _Map ) :-
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% from libraries outside the current directories
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assert( node( attributes, woken_att_do/4, 'library/atts.yap', prolog ) ),
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fail.
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load( _ , Dirs ) :-
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dirs( Dirs ),
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%%% phase 1: find modules
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nb_setval( current_module, user ),
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nb_setval( private, false ),
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nb_setval( file_entry, user:user ),
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init_loop( Dirs ),
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maplist( pl_interfs, Dirs ),
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%%% phase 2: find C-code predicates
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maplist( c_preds, Dirs ).
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dirs( Roots ) :-
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member( Root-_, Roots ),
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% (Root = 'OPTYap' -> start_low_level_trace ; true ),
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absolute_file_name( Root, FRoot ),
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rdir( FRoot ),
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fail.
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dirs( _Roots ).
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rdir( FRoot ) :-
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absolute_file_name( FRoot, [glob(*), solutions(all), file_errors(fail)], File ),
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\+ doskip( File ),
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(
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file_property( File, type(directory) )
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->
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rdir( File )
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;
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assert_new( dir( FRoot, File ))
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),
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fail.
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rdir(_).
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c_preds(Dir - Mod) :-
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atom( Dir ),
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absolute_file_name( Dir, [glob(*), solutions(all), file_errors(fail)], File ),
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( ( sub_atom(File,_,_,0,'.c')
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;
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sub_atom(File,_,_,0,'.i')
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;
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sub_atom(File,_,_,0,'.C')
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;
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sub_atom(File,_,_,0,'.cpp')
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;
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sub_atom(File,_,_,0,'.icc')
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;
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sub_atom(File,_,_,0,'.h')
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) ->
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\+ doskip( File ),
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c_file( File , Mod )
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;
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exists_directory( File ),
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\+ doskip( File ),
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c_preds( File - Mod )
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),
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fail.
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c_preds(_).
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c_file(F, _Mod) :-
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consulted( F, _ ),
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!.
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c_file(F, Mod) :-
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% writeln(F),
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assert( consulted( F, Mod ) ),
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nb_setval( current_module, Mod ),
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open(F, read, S, [alias(c_file)]),
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repeat,
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read_line_to_string( S, String ),
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( String == end_of_file
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->
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!,
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close(S)
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;
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sub_string(String, _, _, _, `PL_extension`),
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%writeln(Fields),
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c_ext(S, Mod, F),
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fail
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;
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split_string(String, `,; ()\t\"\'`, Fields), %'
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%writeln(Fields),
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line_count(S, Lines),
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c_line(Fields , Mod, F:Lines),
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fail
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).
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c_line([`}`], Mod, _) :- !,
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nb_setval( current_module, Mod ).
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c_line(Line, _Mod, _) :-
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append( _, [ `CurrentModule`, `=`, M|_], Line),
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system_mod(M, _Mod, Mod, _),
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nb_setval( current_module, Mod ).
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c_line(Line, Mod, F: LineP) :-
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break_line( Line, N/A, Fu),
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assert( node( Mod, N/A, F-LineP, Fu ) ),
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handle_pred( Mod, N, A, F ).
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c_ext( S, Mod, F ) :-
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repeat,
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read_line_to_string( S, String ),
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(
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sub_string( String, _, _, _, `NULL` ),
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!
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;
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split_string(String, `,; (){}\t\"\'`, [`FRG`, NS,AS,FS|_]), %'
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atom_string(N,NS),
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atom_string(Fu,FS),
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number_string(A, AS),
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stream_property( S, position( Pos ) ),
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stream_position_data( line_count, Pos, Line ),
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assert( node( Mod , N/A, F-Line, Fu ) ),
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handle_pred( Mod, N, A, F )
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;
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split_string(String, `,; (){}\t\"\'`, [NS,AS,FS|_]), %'
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atom_string(N,NS),
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atom_string(Fu,FS),
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number_string(A, AS),
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stream_property( S, position( Pos ) ),
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stream_position_data( line_count, Pos, Line ),
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Line0 is Line-1,
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assert( node( Mod, N/A, F-Line0, Fu ) ),
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handle_pred( Mod, N, A, F )
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).
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break_line( Line, N/A, c(Fu)) :-
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take_line( Line, NS, AS, FS ), !,
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atom_string(N,NS),
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atom_string(Fu,FS),
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number_string(A, AS).
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break_line( Line, N/A, swi(Fu)) :-
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take_line( Line, NS, AS, FS ), !,
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atom_string(N,NS),
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number_string(A, AS),
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atomic_concat([`pl_`,FS,`_`,A,`_va`], Fu).
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break_line( Line, N/A, bp(Fu)) :-
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take_line( Line, NS, AS, FS ), !,
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atom_string(N,NS),
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number_string(A, AS),
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atomic_concat([`pc_`,FS,`_`,A], Fu).
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break_line( Line, N/A, c(FuE, FuB)) :-
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take_line( Line, NS, AS, FSE, FSB ), !,
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atom_string(N,NS),
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atom_string(FuE,FSE),
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atom_string(FuB,FSB),
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number_string(A, AS).
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take_line( Line, NS, AS, FS ) :-
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append( _, [ `Yap_InitCPred`, NS, AS, FS|_], Line), !.
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take_line( Line, NS, AS, FS ) :-
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append( _, [ `Yap_InitAsmPred`, NS, AS, _, FS|_], Line), !.
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take_line( Line, NS, AS, FS ) :-
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append( _, [ `Yap_InitCmpPred`, NS, AS, FS|_], Line), !.
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take_line( Line, NS, AS, FS ) :-
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append( _, [ `Yap_InitCmpPred`, NS, AS, FS|_], Line), !.
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take_line( Line, NS, AS, FS ) :-
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append( _, [ `YAP_UserCPredicate`, NS, FS, AS|_], Line), !.
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take_line( Line, NS, AS, FS ) :-
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append( _, [ `PRED`, NS0, AS, FS|_], Line), !,
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append( [`pl_`, NS0, AS, `_va`], NS ).
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take_line( Line, NS, AS, FS ) :-
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append( _, [ `PRED_IMPL`, NS0, AS, FS|_], Line), !,
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append( [`pl_`, NS0, AS, `_va`], NS ).
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take_line( Line, NS, AS, FS ) :-
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append( _, [ `PL_register_foreign`, NS, AS, FS|_], Line), !.
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take_line( Line, NS, AS, FS ) :-
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append( _, [ `PRED_DEF`, NS0, AS, FS|_], Line), !,
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append( [`pl_`, NS0, AS, `_va`], NS ).
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take_line( Line, NS, AS, FS ) :-
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append( _, [ `FRG`, NS, AS, FS|_], Line), !.
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% from odbc
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take_line( Line, NS, AS, FS ) :-
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append( _, [ `NDET`, NS, AS, FS|_], Line), !.
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take_line( Line, NS, AS, FS ) :-
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append( _, [ `DET`, NS, AS, FS|_], Line), !.
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take_line( Line, AS, FS ) :-
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append( _, [ `REGISTER_CPRED`, FS, AS], Line), !.
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take_line( Line, NS, AS, FSE, FSB ) :-
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append( _, [ `Yap_InitCPredBack`, NS, AS, _, FSE, FSB|_], Line), !.
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system_mod(`ATTRIBUTES_MODULE`, _, attributes, user ).
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system_mod(`HACKS_MODULE`, _, '$hacks' , sys ).
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system_mod(`USER_MODULE`, _, user, user ).
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system_mod(`DBLOAD_MODULE`, _, '$db_load', sys ).
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system_mod(`GLOBALS_MODULE`, _, globals, sys ).
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system_mod(`ARG_MODULE`, _, arg, sys ).
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system_mod(`PROLOG_MODULE`, _ , prolog, sys ).
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system_mod(`RANGE_MODULE`, _, range, user ).
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system_mod(`SWI_MODULE`, _, swi, sys ).
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system_mod(`OPERATING_SYSTEM_MODULE`, _, system , sys ).
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system_mod(`TERMS_MODULE`, _, terms , sys).
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system_mod(`SYSTEM_MODULE`, _, system, sys ).
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system_mod(`IDB_MODULE`, _, idb, user ).
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system_mod(`CHARSIO_MODULE`, _, charsio, sys ).
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system_mod(`cm`, M, M, user ).
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call_c_files( File, Mod, _Fun, [CFile] ) :-
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search_file( CFile, File, c, F ),
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c_file(F, Mod).
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call_c_files( File, Mod, _Fun, CFile ) :-
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CFile \= [_|_],
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search_file( CFile, File, c, F ),
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c_file(F, Mod).
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pl_interfs(Dir - Mod) :-
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\+ doskip( Dir ),
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format('% ************* ~a\n', [Dir]),
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nb_setval( current_module, Mod ),
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atom( Dir ),
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directory_files( Dir , Files),
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member( File, Files ),
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atom_concat([Dir,'/',File], Path),
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( ( sub_atom(File,_,_,0,'.yap') ; sub_atom(File,_,_,0,'.pl') ; sub_atom(File,_,_,0,'.ypp') ) ->
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ops_restore,
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absolute_file_name( Path, APath ),
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pl_interf( APath , Mod )
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;
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exists_directory( Path ),
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\+ atom_concat(_, '/.', Path),
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\+ atom_concat(_, '/..', Path),
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\+ atom_concat(_, '/.git', Path),
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absolute_file_name( Path, APath ),
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\+ doskip( APath ),
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pl_interfs( APath - Mod )
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),
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fail.
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pl_interfs(_).
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%%
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% pl_interf( File, Mod)
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% adds a node to the file graph and marks which files are modules
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%
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% main side-effect facts like edge( F0-Mod:File )
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% exported( ( FMNATarget :- FMNASource ) ) ou exported(F-M, Op ),
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% module_on ( M, File )
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%
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pl_interf(F, _Mod) :-
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module_on( F , _M, _Is),
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!.
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pl_interf(F, Mod) :-
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consulted(F, Mod ),
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!.
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pl_interf(F, Mod) :-
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% ( sub_atom(F,_,_,_,'matrix.yap') -> spy get_interf ; true ),
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% ( sub_atom( F, _, _, 0, 'gecode.yap' ) -> spy user_deps; true ),
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assert_new(consulted(F, Mod ) ),
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nb_getval( private, Default ),
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nb_setval( private, false ),
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nb_getval( file_entry, OF:OMod ),
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nb_setval( file_entry, F:Mod ),
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preprocess_file( F, PF ),
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catch( open(PF, read, S, [scripting(true)]) , _, fail ),
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repeat,
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nb_getval( current_module, MR ),
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%( sub_atom(F,_,_,_,'e.yap') -> spy get_interf ; nospyall ),
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catch( read_term( S, T, [module( MR ),term_position(Pos)] ), Throw, (ypp(F,Throw), fail)),
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(
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T == end_of_file
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->
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!,
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close(S),
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(
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c_dep( F, Fc),
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c_file( Fc, MR ),
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fail
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;
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build_graph( F, MR ),
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fail
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% cleanup
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;
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module_on( F , _M, _Is)
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->
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% also, close ops defined in the module M, if M \= Mod
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nb_setval( current_module, Mod ),
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nb_setval( private, Default ),
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nb_setval( file_entry, OF:OMod )
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;
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true
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)
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;
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nb_getval( current_module, MC0 ),
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stream_position_data( line_count, Pos, Line ),
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nb_setval( line, Line ),
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( Mod == prolog -> MC = prolog ; MC = MC0 ),
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get_interf( T, F, MC ),
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fail
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).
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get_interf( T, _F, _M0 ) :-
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var(T),
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!.
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get_interf( T, _F, _M0 ) :-
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% ( T = (:- op(_,_,_)) -> trace ; true ),
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var(T),
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!.
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get_interf( M:T, F, _M0 ) :- !,
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get_interf( T, F, M ).
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get_interf( goal_expansion(G, M, _) , F, _M0 ) :-
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nonvar( G ),
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!,
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( var( M ) -> M1 = prolog ; M = M1 ),
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functor( G, N, A ),
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handle_pred( M1, N, A, F ).
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get_interf( goal_expansion(G, _) , F, _M0 ) :-
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nonvar( G ),
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!,
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functor( G, N, A ),
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handle_pred( prolog, N, A, F ).
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get_interf( ( M:H :- _B), F, _M ) :-
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!,
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get_interf( H, F, M ).
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get_interf( ( goal_expansion(G, M, _) :- _) , F, _M0 ) :-
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nonvar( G ),
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!,
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( var( M ) -> M1 = prolog ; M = M1 ),
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functor( G, N, A ),
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handle_pred( M1, N, A, F ).
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get_interf( ( goal_expansion(G, _) :- _) , F, _M0 ) :-
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nonvar( G ),
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!,
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functor( G, N, A ),
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handle_pred( prolog, N, A, F ).
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get_interf( ( M:H --> _B), F, _ ) :-
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!,
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get_interf( ( H --> _B), F, M ).
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get_interf( ( A, _ --> _B), F, M ) :-
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get_interf( ( A --> _B), F, M ).
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get_interf( (H --> _B), F, M ) :-
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!,
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functor( H, N, Ar),
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Ar2 is Ar+2,
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functor( H2, N, Ar2),
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get_interf( H2, F, M ).
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get_interf( (H :- _B), F, M ) :-
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!,
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get_interf( H, F, M ).
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%% switches to new file n
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get_interf( (:- V ), _F, _M ) :-
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var( V ),
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!.
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get_interf( (:- module( NM, Is ) ), F, _M ) :-
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!,
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assert(module_file( F, NM ) ),
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nb_setval( current_module, NM ),
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assert( module_on( F , NM, Is) ),
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maplist( public(F, NM), Is ),
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nb_setval( private, true ).
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get_interf( (:- reexport( Loc, Is ) ), F, M ) :-
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!,
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% find the file
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search_file( Loc, F, pl, NF ),
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include_files( F, M, Is, NF ),
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% extend the interface.rg
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retract( module_on( F , M, Is0) ),
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append( Is0, Is, NIs ),
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assert( module_on( F , M, NIs) ),
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maplist( public(F, M), NIs ).
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get_interf( (:- use_module( Loc, Is ) ), F, M ) :- !,
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!,
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include_files( F, M, Is, Loc ).
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get_interf( (:- use_module( Loc ) ), F, M ) :- !,
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!,
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include_files( F, M, Loc ).
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% nb_getval(current_module,MM), writeln(NM:MM:M).
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get_interf( (:- use_module( Loc, Is, _ ) ), F, M ) :- !,
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!,
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include_files( F, M, Is, Loc ).
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get_interf( (:- consult( Files ) ), F, M ) :-
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!,
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include_files( F, M, Files ).
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get_interf( (:- reconsult( Files ) ), F, M ) :-
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!,
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include_files( F, M, Files ).
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get_interf( (:- ensure_loaded( Files ) ), F, M ) :-
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!,
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include_files( F, M, Files ).
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get_interf( (:- include( Files ) ), F, M ) :-
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!,
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source_files( F, M, Files ).
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get_interf( (:- load_files( Files , [_|_] ) ), F, M ) :-
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!,
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include_files( F, M, Files ).
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get_interf( ( :- ( G -> _ ; _ ) ) , F, M) :-
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!,
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get_interf( (:- G ) , F, M).
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get_interf( (:- catch( G , _, _ ) ) , F, M) :-
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!,
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get_interf( (:- G ) , F, M).
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get_interf( (:- initialization( G , now ) ) , F, M) :-
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!,
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get_interf( (:- G ) , F, M).
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get_interf( (:- load_files( Files , [_|_] ) ), F, M ) :-
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!,
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include_files( F, M, Files ).
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get_interf( (:- [F1|Fs] ), F, M ) :-
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!,
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include_files( F, M, [F1|Fs] ).
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% don't actually use this one.
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get_interf( (:- load_foreign_files(Fs, _, Fun) ), F, M ) :-
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!,
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call_c_files( F, M, Fun, Fs ).
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get_interf( (:- load_foreign_library(F) ), F0, M ) :-
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!,
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always_strip_module(M:F, M1, F1),
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call_c_files( F0, M1, '', F1 ).
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get_interf( (:- load_foreign_library(F,Fun) ), F0, M ) :-
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!,
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always_strip_module(M:F, M1, F1),
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call_c_files( F0, M1, Fun, F1 ).
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get_interf( (:- use_foreign_library(F) ), F0, M ) :-
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!,
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always_strip_module(M:F, M1, F1),
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call_c_files( F0, M1, '', F1 ).
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get_interf( (:- system_module( _NM, _Publics, _Hiddens) ), _F, _M ) :-
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!.
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get_interf( (:- style_checker( _ ) ), _F, _M ) :-
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!.
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get_interf( (:- dynamic T), F, M ) :-
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!,
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declare_functors( T, F, M ).
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get_interf( (:- multifile T), F, M ) :- % public?
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!,
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declare_functors( T, F, M ).
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get_interf( (:- meta_predicate T), F, M ) :-!,
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declare_terms( T, F, M ), % public?
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!.
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get_interf( (:- '$install_meta_predicate'( H, M) ), F, __M ) :-
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!,
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declare_functors( H, F, M ).
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get_interf( (:- thread_local T), F, M ) :-
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!,
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declare_functors( T, F, M ).
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get_interf( (:- op( X, Y, Z) ), F, M ) :-
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!,
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always_strip_module(M:Z, M1, Z1),
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handle_op( F, M1, op( X, Y, Z1) ).
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get_interf( (:- record( Records ) ), F, M ) :-
|
|
!,
|
|
handle_record( Records, F, M).
|
|
get_interf( (:- set_prolog_flag(dollar_as_lower_case,On) ), _F, _M ) :-
|
|
!,
|
|
set_prolog_flag(dollar_as_lower_case,On).
|
|
get_interf( (:- _ ), _F, _M ) :- !.
|
|
get_interf( (?- _ ), _F, _M ) :- !.
|
|
get_interf( V , _F, _M ) :-
|
|
var( V ),
|
|
!,
|
|
error( instantiation_error ).
|
|
get_interf( G , F, M ) :-
|
|
functor( G, N, A),
|
|
handle_pred( M, N, A, F ),
|
|
!.
|
|
|
|
% support SWI package record
|
|
handle_record( (Records1, Records2), F, M ) :-
|
|
!,
|
|
handle_record( Records1, F, M ),
|
|
handle_record( Records2, F, M ).
|
|
handle_record( Record, F, M ) :-
|
|
Record =.. [Constructor|Fields],
|
|
atom_concat(Constructor, '_data', Data),
|
|
handle_pred( M, Data, 3, F),
|
|
atom_concat(default_, Constructor, New),
|
|
handle_pred( M, New, 1, F),
|
|
atom_concat(is_, Constructor, Is),
|
|
handle_pred( M, Is, 1, F),
|
|
atom_concat(make_, Constructor, Make),
|
|
handle_pred( M, Make, 2, F),
|
|
handle_pred( M, Make, 3, F),
|
|
atom_concat([set_, Constructor,'_fields'], Sets),
|
|
handle_pred( M, Sets, 3, F),
|
|
handle_pred( M, Sets, 4, F),
|
|
atom_concat([set_, Constructor,'_field'], Set),
|
|
handle_pred( M, Set, 3, F),
|
|
maplist( handle_record_field( Constructor, F, M) , Fields ).
|
|
|
|
handle_record_field( Constructor, F, M, Name:_=_ ) :-
|
|
!,
|
|
handle_record_field_name( Constructor, F, M, Name).
|
|
handle_record_field( Constructor, F, M, Name:_ ) :-
|
|
!,
|
|
handle_record_field_name( Constructor, F, M, Name).
|
|
handle_record_field( Constructor, F, M, Name=_ ) :-
|
|
!,
|
|
handle_record_field_name( Constructor, F, M, Name).
|
|
handle_record_field( Constructor, F, M, Name ) :-
|
|
handle_record_field_name( Constructor, F, M, Name).
|
|
|
|
handle_record_field_name( Constructor, F, M, Name) :-
|
|
atom_concat([ Constructor,'_', Name], Val),
|
|
handle_pred( M, Val, 2, F),
|
|
atom_concat([ set_, Name, '_of_', Constructor ], Set),
|
|
handle_pred( M, Set, 3, F),
|
|
handle_pred( M, Set, 2, F),
|
|
atom_concat([ nb_set_, Name, '_of_', Constructor ], Set),
|
|
handle_pred( M, Set, 3, F),
|
|
handle_pred( M, Set, 2, F).
|
|
|
|
handle_pred( M, N, A, F ) :-
|
|
(
|
|
system_mod( _, _, M, sys )
|
|
->
|
|
(
|
|
atom_concat('$',_,N)
|
|
->
|
|
private( F, M, N/A )
|
|
;
|
|
public( F, M, N/A )
|
|
)
|
|
;
|
|
( nb_getval( private, false )
|
|
->
|
|
public( F, M, N/A )
|
|
;
|
|
private( F, M, N/A )
|
|
)
|
|
).
|
|
|
|
handle_op( F, M, Op ) :-
|
|
( nb_getval( private, false )
|
|
->
|
|
public( F, M, Op )
|
|
;
|
|
private( F, M, Op )
|
|
),
|
|
Op = op(X, Y, Z ),
|
|
( ( M == user ; M == prolog )
|
|
->
|
|
op( X, Y, prolog:Z )
|
|
;
|
|
op( X, Y, M:Z )
|
|
).
|
|
|
|
exported( NF, F, NM, M, op(X,Y,Z)) :-
|
|
!,
|
|
public( NF , NM:op(X,Y,Z) ),
|
|
handle_op( F, M , op(X,Y,Z) ).
|
|
exported( NF, F, NM, M, N/A) :- !,
|
|
% sink no more
|
|
retractall( exported(( _ :- F-M:N/A) ) ),
|
|
assert_new( exported( (F-M:N/A :- NF-NM:N/A )) ).
|
|
exported( NF, F, NM, M, N/A as NN) :- !,
|
|
% sink no more
|
|
retractall( exported(( _ :- F-M:N/A) ) ),
|
|
assert_new( exported( ( F-M:NN/A :- NF-NM:N/A ) ) ).
|
|
exported( NF, F, NM, M, N//A) :- !,
|
|
A2 is A+2,
|
|
% sink no more
|
|
retractall( exported(( _ :- F-M:N/A2) ) ),
|
|
assert_new( exported( (F-M:N/A2 :- NF-NM:N/A2) ) ).
|
|
exported( NF, F, NM, M, N//A as NN) :- !,
|
|
A2 is A+2,
|
|
% sink no more
|
|
retractall( exported(( _ :- F-M:N/A2) ) ),
|
|
assert_new( exported( ( F-M:NN/A2 :- NF-NM:N/A2 )) ).
|
|
|
|
import_publics( F, ProducerMod, ConsumerMod ) :-
|
|
public(F, ProducerMod:op(X,Y,Z) ),
|
|
handle_op( F, ConsumerMod, op(X,Y,Z) ),
|
|
fail.
|
|
import_publics( _F, _ProducerMod, _ConsumerMod ).
|
|
|
|
all_imported( ProducerFile, ConsumerFile, ProducerMod, ConsumerMod ) :-
|
|
public(ProducerFile, ProducerMod:op(X,Y,Z) ),
|
|
handle_op( ConsumerFile, ConsumerMod, op(X,Y,Z) ),
|
|
fail.
|
|
all_imported( ProducerFile, ConsumerFile, ProducerMod, ConsumerMod ) :-
|
|
public(ProducerFile, ProducerMod:N/A ),
|
|
exported( ProducerFile, ConsumerFile, ProducerMod, ConsumerMod, N/A ),
|
|
fail.
|
|
all_imported( _ProducerFile, _ConsumerFile, _ProducerMod, _ConsumerMod ).
|
|
|
|
|
|
include_files( F, M, Files ) :-
|
|
include_files( F, M, _Is, Files ).
|
|
|
|
include_files( F, M, Is, Files ) :-
|
|
maplist( include_files( F, M, Is ), Files ),
|
|
!.
|
|
include_files( F, M, Is, -Files ) :-
|
|
!,
|
|
include_files( F, M, Is, Files).
|
|
include_files( F, M, Is, Files ) :-
|
|
!,
|
|
always_strip_module(M:Files, M1, NFiles),
|
|
include_file( F, M1, Is, NFiles ).
|
|
include_files( F, M, Is, Loc ) :-
|
|
include_file( F, M, Is, Loc ).
|
|
|
|
include_file( F, M, Is, Loc ) :-
|
|
is_list( Loc ), !,
|
|
maplist( include_file( F, M, Is), Loc ).
|
|
include_file( F, M, Is0, Loc ) :-
|
|
nb_getval( private, Private ),
|
|
% find the file
|
|
once( search_file( Loc, F, pl, NF ) ),
|
|
% depth visit
|
|
pl_interf(NF, M), % should verify Is in _Is
|
|
% link b
|
|
( module_on(NF, NM, Is)
|
|
->
|
|
( var(Is0) -> Is = Is0 ; true ),
|
|
maplist( exported( NF, F, NM, M) , Is0 )
|
|
;
|
|
all_imported( NF, F, NM, M)
|
|
),
|
|
nb_setval( private, Private ).
|
|
|
|
|
|
source_files( F, M, Files ) :-
|
|
maplist( source_files( F, M ), Files ),
|
|
!.
|
|
source_files( F, M, Loc ) :-
|
|
source_file( F, M, Loc ).
|
|
|
|
source_file( F, M, Loc ) :-
|
|
once( search_file( Loc, F, pl, NF ) ),
|
|
% depth visit
|
|
pl_source(NF, F, M). % should verify Is in _Is
|
|
|
|
pl_source(F, F0, Mod) :-
|
|
% writeln( -F ),
|
|
preprocess_file( F, PF ),
|
|
catch( open(PF, read, S, []) , _, fail ),
|
|
repeat,
|
|
nb_getval( current_module, MR ),
|
|
%( sub_atom(F,_,_,_,'examples/matrix.yap') -> spy get_interf ; nospyall ),
|
|
catch( read_term( S, T, [module( MR ),term_position(Pos)] ), Throw, (writeln(F:MR:Throw), break, fail)),
|
|
(
|
|
T == end_of_file
|
|
->
|
|
!,
|
|
close(S)
|
|
;
|
|
nb_getval( current_module, MC0 ),
|
|
stream_position_data( line_count, Pos, Line ),
|
|
nb_setval( line, Line ),
|
|
( Mod == prolog -> MC = prolog ; MC = MC0 ),
|
|
get_interf( T, F0, MC ),
|
|
fail
|
|
).
|
|
|
|
declare_functors( T, _F, _M1) :- var(T), !,
|
|
error( unbound_variable ).
|
|
declare_functors( M:T, F, _M1) :- !,
|
|
declare_functors( T, F, M).
|
|
declare_functors( (T1,T2), F, M1) :- !,
|
|
declare_functors( T1, F, M1),
|
|
declare_functors( T2, F, M1).
|
|
declare_functors( Ts, F, M1) :-
|
|
maplist( declare_functor( F, M1), Ts ), !.
|
|
declare_functors( T, F, M1) :-
|
|
declare_functor( F, M1, T).
|
|
|
|
declare_functor(File, M, N/A) :-
|
|
handle_pred( M, N, A, File ).
|
|
|
|
declare_terms( T, _F, _M1) :- var(T), !,
|
|
error( unbound_variable ).
|
|
declare_terms( M:T, F, _M1) :- !,
|
|
declare_functors( T, F, M).
|
|
declare_terms( (N1,N2), F, M) :-
|
|
number(N1),
|
|
number(N2),
|
|
!,
|
|
declare_term( F, M, (N1,N2)).
|
|
declare_terms( (T1,T2), F, M1) :- !,
|
|
declare_terms( T1, F, M1),
|
|
declare_terms( T2, F, M1).
|
|
declare_terms( Ts, F, M1) :-
|
|
maplist( declare_term( F, M1), Ts ), !.
|
|
declare_terms( T, F, M1) :-
|
|
declare_term( F, M1, T).
|
|
|
|
declare_term(F, M, S) :-
|
|
functor(S, N, A),
|
|
handle_pred( M, N, A, F ).
|