564 lines
15 KiB
Plaintext
564 lines
15 KiB
Plaintext
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:- style_check(all).
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:- use_module(library(readutil)).
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:- use_module(library(lineutils)).
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:- use_module(library(lists)).
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:- use_module(library(maplist)).
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:- initialization(main).
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:- yap_flag( double_quotes, string ).
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:- dynamic edge/4, node/4, public_predicate/3, private_predicate/3, module_on/2.
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% @short node(?Module:module, ?Predicate:pred_indicator, ?File:file, ?Generator:atom) is nondet
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%
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inline( !/0 ).
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inline( (\+)/1 ).
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inline( (fail)/0 ).
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inline( (false)/0 ).
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inline( (repeat)/0 ).
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inline( (true)/0 ).
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inline( []/0 ).
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% @short edge(+SourceModule:module, +SourcePredicate:pred_indicator, +TargetPredicate:pred_indicator, +InFile:file) is nondet
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%
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main :-
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unix(argv([D])),
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working_directory(_, D),
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fail.
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main :-
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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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main :-
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c_preds('C'),
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c_preds('OPTYap'),
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c_preds('os'),
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c_preds('library/dialeect/swi/fli'),
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pl_preds(pl),
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pl_preds(library),
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pl_preds('swi/library'),
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undefs,
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doubles,
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% pl_exports(pl).
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c_links.
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c_preds(M:Dir) :-
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Root = '.',
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atom_concat([Root,'/',Dir,'/','*.c'], Pattern),
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expand_file_name( Pattern, Files ),
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member( File, Files ),
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c_file( File , M ),
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fail.
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c_preds(Dir) :-
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atom( Dir ),
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Root = '.',
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atom_concat([Root,'/',Dir,'/','*.c'], Pattern),
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expand_file_name( Pattern, Files ),
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member( File, Files ),
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c_file( File , prolog ),
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fail.
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c_preds(_).
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c_file(F, Mod) :-
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% writeln(F),
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nb_setval( current_module, Mod ),
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open(F, read, S),
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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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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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mod(M, _Mod, Mod),
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nb_setval( current_module, Mod ).
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c_line(Line, _Mod, F) :-
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append( _, [ "Yap_InitCPred", NS, AS, FS|_], Line), !,
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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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nb_getval( current_module, Mod ),
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\+ inline(N/A),
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assert( node( Mod, N/A, F, c(Fu)) ).
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c_line(Line, _Mod, F) :-
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append( _, [ "Yap_InitAsmPred", NS, AS, FS|_], Line), !,
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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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nb_getval( current_module, Mod ),
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assert( node( Mod, N/A, F, asm(Fu)) ).
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c_line(Line, _Mod, F) :-
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append( _, [ "Yap_InitCmpPred", NS, AS, FS|_], Line), !,
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atom_string( N, NS),
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number_string(A, AS),
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atom_string( Fu, FS),
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nb_getval( current_module, Mod ),
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assert( node( Mod, N/A, F, cmp(Fu)) ).
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c_line(Line, _Mod, F) :-
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append( _, [ "Yap_InitCPredBack", NS, AS|_], Line), !,
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atom_string(N,NS),
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number_string(A, AS),
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nb_getval( current_module, Mod ),
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assert( node( Mod, N/A, F, c) ).
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c_line(Line, _Mod, F) :-
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append( _, [ "YAP_UserCPredicate", NS, NF, AS|_], Line), !,
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atom_string(N,NS),
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atom_string(Fu,NF),
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number_string(A, AS),
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nb_getval( current_module, Mod ),
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assert( node( Mod, N/A, F, c(Fu)) ).
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c_line(Line, _Mod, F) :-
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append( _, [ "PRED_DEF", NS, AS, FS|_], Line), !,
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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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nb_getval( current_module, Mod ),
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assert( node( Mod, N/A, F, c(Fu)) ).
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/*
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c_line(Line, _Mod, F) :-
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append( _, [ "PRED_IMPL", NS, AS|_], Line), !,
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atom_string(N,NS),
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number_string(A, AS),
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nb_getval( current_module, Mod ),
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assert( node( Mod, N/A, F, c) ).
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*/
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c_line(Line, _Mod, F) :-
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append( _, [ "PRED", NS, AS, FS|_], Line), !,
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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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nb_getval( current_module, Mod ),
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assert( node( Mod, N/A, F, c(Fu)) ).
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c_line(Line, _Mod, F) :-
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append( _, [ "REGISTER_CPRED", NS, AS], Line), !,
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atom_string(N,NS),
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number_string(A, AS),
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nb_getval( current_module, Mod ),
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assert( node( Mod, N/A, F, c(N)) ).
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c_line(Line, _Mod, F) :-
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append( _, [ "FRG", NS, AS, FS|_], Line), !,
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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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nb_getval( current_module, Mod ),
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assert( node( Mod, N/A, F, c(Fu)) ).
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mod("ATTRIBUTES_MODULE", _, attributes ).
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mod("HACKS_MODULE", _, '$hacks' ).
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mod("USER_MODULE", _, user ).
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mod("DBLOAD_MODULE", _, '$db_load' ).
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mod("GLOBALS_MODULE", _, globals ).
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mod("ARG_MODULE", _, globals ).
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mod("PROLOG_MODULE", _ , prolog ).
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mod("RANGE_MODULE", _, range ).
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mod("SWI_MODULE", _, swi ).
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mod("OPERATING_SYSTEM_MODULE", _, "operating_system_support" ).
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mod("TERMS_MODULE", _, terms ).
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mod("SYSTEM_MODULE", _, system ).
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mod("IDB_MODULE", _, idb ).
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mod("CHARSIO_MODULE", _, charsio ).
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mod("cm", M, M ).
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mod("OldCurrentModule", M, M ).
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pl_preds(Dir) :-
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atom( Dir ),
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Root = '.',
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Suffix = '.yap',
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atom_concat([Root,'/',Dir,'/','*',Suffix], Pattern),
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expand_file_name( Pattern, Files ),
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member( File, Files ),
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pl_nodes( File , prolog, Suffix ),
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fail.
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pl_preds(Dir) :-
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atom( Dir ),
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Root = '.',
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Suffix = '.pl',
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atom_concat([Root,'/',Dir,'/','*',Suffix], Pattern),
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expand_file_name( Pattern, Files ),
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member( File, Files ),
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pl_nodes( File , prolog, Suffix ),
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fail.
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pl_preds(Dir) :-
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atom( Dir ),
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Root = '.',
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Suffix = '.yap',
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atom_concat([Root,'/',Dir,'/','*',Suffix], Pattern),
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expand_file_name( Pattern, Files ),
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member( File, Files ),
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pl_file( File , prolog, Suffix ),
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fail.
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pl_preds(Dir) :-
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atom( Dir ),
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Root = '.',
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Suffix = '.pl',
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atom_concat([Root,'/',Dir,'/','*',Suffix], Pattern),
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expand_file_name( Pattern, Files ),
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member( File, Files ),
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pl_file( File , prolog, Suffix ),
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fail.
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pl_preds(_).
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pl_nodes(F, _Mod, Suffix) :-
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% writeln(F),
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file_to_module(F, Suffix, Mod),
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save_ops(Ops),
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nb_setval( current_module, Mod ),
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open(F, read, S),
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repeat,
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catch( read_term( S, T, [singletons(_Vars), term_position(_Pos) ] ), Throw, (writeln(Throw), fail )),
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( T == end_of_file
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->
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!,
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restore_ops(Ops),
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close(S)
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;
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% warn_singletons(Vars, Pos),
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nb_getval( current_module, M ),
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line_count( S, Lines ),
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build_nodes( T, F:Lines, M ),
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fail
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).
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build_nodes( M:T, F, _ ) :- !,
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build_nodes( T, F, M ).
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build_nodes( (M:H :- B), F, _ ) :- !,
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build_nodes( (H :- B), F, M ).
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build_nodes( (H :- _B), F, M ) :- !,
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functor(H, N, A),
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add_node( M:N/A, F).
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build_nodes( (H --> _B), F, M ) :- !,
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functor(H, N, A1),
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A is A1+2,
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add_node( M:N/A, F).
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build_nodes( S, _F, _M ) :- string( S ), !.
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build_nodes( (:- module( NM, Is ) ), F, _M ) :- !,
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nb_setval( current_module, NM ),
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F = FN:_,
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assert( module_on( FN:_ , NM) ),
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maplist(process_decl, Is),
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maplist( public(F, NM), Is ).
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build_nodes( (:- private( Is ) ), F, M ) :- !,
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maplist( private(F, M), Is ).
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build_nodes( (:- dynamic Bs), F, M ) :-
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add_nodes( Bs, F, M).
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build_nodes( (:- multifile Bs), F, M ) :-
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add_nodes( Bs, F, M).
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build_nodes( (:- thread_local Bs), F, M ) :-
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add_nodes( Bs, F, M).
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build_nodes( (:- _B), _F, _M ) :- !.
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build_nodes( (?- _B), _F, _M ) :- !.
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build_nodes( H, F, M ) :-
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functor(H, N, A),
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add_node( M:N/A, F).
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public(F, M, I) :-
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assert(public_predicate(I, M, F)).
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private(F, M, I) :-
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assert(private_predicate(I, M, F)).
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save_ops( Ops ) :-
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findall(op(X,Y,Z), current_op(X,Y,Z), Ops).
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restore_ops( Ops ) :-
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maplist(restore_op, Ops).
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restore_op(op(_X,_Y,',')) :- !.
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restore_op(op(X,Y,Z)) :-
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op(X,Y,Z).
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add_nodes( (A,B), F, M) :- !,
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add_nodes( A, F, M),
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add_nodes( B, F, M).
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add_nodes( M:A, F, _M) :- !,
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add_nodes( A, F, M).
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add_nodes( B, F, M) :- !,
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( string( B ) -> true; add_node( M:B, F) ).
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add_node( N, F, M ) :-
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always_strip_module(M:N, M, N1 ),
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functor(N1, Na, Ar),
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(Na = '$c_built_in'/3 -> writeln(add_node(M:Na/Ar, F)) ; true ),
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add_node(M:Na/Ar, F).
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add_node( M:N/A, F) :-
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F = FN:_,
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F0 = FN:0,
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( module_on( F, _ ) -> true
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;
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sub_atom(N, 0, 1, _, '$') -> true
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;
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public_predicate(N/A, M, F0) -> true
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;
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private_predicate(N/A, M, F0) -> true
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;
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assert(public_predicate(N/A, M, F0) )
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),
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fail.
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add_node( M:N/A, F) :- node( M, N/A, F, _ ), !.
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add_node( M:N/A, F) :-
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assert( node( M, N/A, F, prolog ) ).
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pl_file(F, _Mod, Suffix) :-
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% writeln(F),
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file_to_module(F, Suffix, Mod),
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nb_setval( current_module, Mod ),
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open(F, read, S),
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repeat,
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catch( read_term( S, T, [singletons(_Vars), term_position(_Pos) ] ), Throw, (writeln(Throw), fail) ),
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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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% warn_singletons(Vars, Pos),
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nb_getval( current_module, M ),
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line_count( S, Lines ),
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build_graph( T, F:Lines, M ),
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fail
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).
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file_to_module(F, _Suffix, Mod) :-
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module_on(F:_, Mod), !.
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file_to_module(F, _Suffix, Mod) :-
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file_directory_name(F, Base),
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atom_concat(_, pl, Base), !,
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Mod = prolog.
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file_to_module(_F, _Suffix, user).
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build_graph( M:T, F, _ ) :- !,
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build_graph( T, F, M ).
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build_graph( (M:H :- B), F, _ ) :- !,
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build_graph( (H :- B), F, M ).
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build_graph( (H :- B), F, M ) :- !,
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functor(H, N, A),
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add_deps( B, M, M:N/A, F, 0).
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build_graph( (H --> B), F, M ) :- !,
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functor(H, N, A1),
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A is A1+2,
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add_deps( B, M, M:N/A, F, 2).
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build_graph( (:- module( NM, Is ) ), F, _M ) :- !,
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nb_setval( current_module, NM ),
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F = FN:_,
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maplist(process_decl, Is),
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assert( module_on( FN:_ , NM) ).
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build_graph( (:- load_foreign_files( _, _, _ ) ), _F, _M ) :- !,
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nb_getval( current_module, NM ),
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c_location( NM, D),
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c_preds( NM:D ).
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build_graph( (:- op( X, Y, Z) ), _F, _M ) :- !,
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op(X,Y, prolog:Z).
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build_graph( (:- _B), _F, _M ) :- !.
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build_graph( (?- _B), _F, _M ) :- !.
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build_graph( _H, _F, _M ).
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process_decl(op(X,Y,Z)) :-
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!,
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op(X,Y, prolog:Z).
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process_decl(_).
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add_deps(V, _M, _P, _F, _) :- var(V), !.
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add_deps((A,B), M, P, F, L) :- !,
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add_deps(A, M, P, F, L),
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add_deps(B, M, P, F, L).
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add_deps((A;B), M, P, F, L) :- !,
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add_deps(A, M, P, F, L),
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add_deps(B, M, P, F, L).
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add_deps((A->B), M, P, F, L) :- !,
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add_deps(A, M, P, F, L),
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add_deps(B, M, P, F, L).
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add_deps(once(A), M, P, F, L) :- !,
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add_deps(A, M, P, F, L).
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add_deps({A}, M, P, F, 2) :- !,
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add_deps(A, M, P, F, 0).
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add_deps([_|_], _M, _P, _F, 2) :- !.
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add_deps([], _M, _P, _F, 2) :- !.
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add_deps(!, _M, _P, _F, _) :- !.
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add_deps(true, _M, _P, _F, 0) :- !.
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add_deps(false, _M, _P, _F, 0) :- !.
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add_deps(fail, _M, _P, _F, 0) :- !.
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add_deps(repeat, _M, _P, _F, 0) :- !.
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add_deps(A, _M0, P, F, L) :- !,
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always_strip_module(unused_module:A, M1, A1),
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functor(A1, N, Ar0),
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Ar1 is Ar0+L,
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(string(A1) -> true ; M1 == unused_module -> ( node( M, N/Ar1, _, _) -> true ; format( 'UNDEF ~w ~w ~w~n',[ M, F, N/Ar1]) , assert(node(prolog,N/Ar1,'/dev/null':0,prolog)) ) ; M = M1 ),
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P = _:Na/Ar,
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( put_deps(M, N/Ar1, Na/Ar, F, L)
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->
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true
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;
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writeln('FAILED'(add_deps(A, _M0, P, F, L)))
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).
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put_deps(_, P, _, _, _L) :-
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inline( P ), !.
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put_deps(M, P, PN, F, _L) :-
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edge(M, P, PN, F), !.
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put_deps(M, P, PN, F, _L) :-
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assert(edge(M,P, PN, F) ).
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doubles :-
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node(M, P, _F, _),
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node(M1, P, _F1, _),
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M @< M1,
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public_predicate( P, M, _F),
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public_predicate( P, M1, _F1),
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format('~w vs ~w~n', [M:P,M1:P]),
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fail.
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doubles.
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undefs :-
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edge(_M,P,_,F),
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\+ node(_, P, _, _),
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format('UNDEFINED procedure call ~q at ~w~n',[P, F]),
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fail.
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undefs.
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pl_exports(M:Dir) :-
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Root = '.',
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atom_concat([Root,'/',Dir,'/','*.c'], Pattern),
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expand_file_name( Pattern, Files ),
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member( File, Files ),
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pl_export( File , M, '.c' ),
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fail.
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pl_exports(Dir) :-
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atom( Dir ),
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Root = '.',
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atom_concat([Root,'/',Dir,'/','*.yap'], Pattern),
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expand_file_name( Pattern, Files ),
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member( File, Files ),
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pl_export( File , prolog, '.yap' ),
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fail.
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pl_exports(Dir) :-
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atom( Dir ),
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Root = '.',
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atom_concat([Root,'/',Dir,'/','*.pl'], Pattern),
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expand_file_name( Pattern, Files ),
|
|
member( File, Files ),
|
|
pl_export( File , prolog, '.pl' ),
|
|
fail.
|
|
pl_exports(_).
|
|
|
|
pl_export(F, _Mod, Suffix) :-
|
|
file_to_module( F, Suffix, Mod),
|
|
format('****************** compile ~a ******************~n', [F]),
|
|
nb_setval( current_module, Mod ),
|
|
( module_on( F:_, _) -> Es = [], ( setof(P, mod_priv(Mod, P), Ps) -> true ; Ps = [] )
|
|
;
|
|
( setof(P, pub(Mod, P), Es) -> true ; Es = [] ),
|
|
( setof(P, priv(Mod, P), Ps) -> true ; Ps = [] ),
|
|
format(':- system_module( ~q, ',[Mod]),
|
|
out_list(Es),
|
|
format(', '),
|
|
out_list(Ps),
|
|
format(').~n~n', [])
|
|
),
|
|
fail.
|
|
pl_export(F, _Mod, Suffix) :-
|
|
file_to_module( F, Suffix, Mod),
|
|
nb_setval( current_module, Mod ),
|
|
setof( P, has_edge(M, P, Mod, F), Ps),
|
|
format(':- use_system_module( ~q, ',[M]),
|
|
out_list(Ps),
|
|
format(').~n~n', []),
|
|
fail.
|
|
|
|
out_list([]) :-
|
|
format('[]', []).
|
|
out_list([El]) :-
|
|
format('[~q]', [El]).
|
|
out_list([E1,E2|Es]) :-
|
|
format('[~q', [E1]),
|
|
maplist(out_el, [E2|Es]),
|
|
format(']', []).
|
|
|
|
out_el( El ) :-
|
|
format(',~n ~q',[El]).
|
|
|
|
pub(M, P) :-
|
|
node(M, P, _, _),
|
|
P = N/_A,
|
|
\+ sub_atom(N,0,1,_,'$').
|
|
|
|
has_edge(M1, P1, M, F) :-
|
|
edge(M1, P1, _P, F:_),
|
|
node(M1, P1, _, _),
|
|
M1 \= prolog,
|
|
M1 \= M,
|
|
\+ public_predicate(P1, M1, _).
|
|
|
|
mod_priv(M, P) :-
|
|
node(M, P, _, _),
|
|
node(M, P, _, _),
|
|
\+ public_predicate(P, M, _),
|
|
edge(M1, P, _P0, _), M1 \= M.
|
|
|
|
priv(M, P) :-
|
|
node(M, P, F:_, _),
|
|
\+ public_predicate(P, M, _),
|
|
edge(_, P, _P1, F1:_), F1 \= F.
|
|
|
|
% utilities
|
|
|
|
split_string( S , Cs, N) :-
|
|
string_codes(S, S1),
|
|
string_codes(Cs, NCs),
|
|
split(S1, NCs, Ncs0),
|
|
maplist(remove_escapes, Ncs0, Ncs),
|
|
maplist(string_codes, N, Ncs).
|
|
|
|
remove_escapes([0'\\ ,A|Cs], [A|NCs]) :- !, %'
|
|
remove_escapes(Cs, NCs).
|
|
remove_escapes([A|Cs], [A|NCs]) :-
|
|
remove_escapes(Cs, NCs).
|
|
remove_escapes( [], [] ).
|
|
|
|
always_strip_module(V, M, V1) :- var(V), !,
|
|
V = M:call(V1).
|
|
always_strip_module(M0:A, M0, call(A)) :- var(A), !.
|
|
always_strip_module(_:M0:A, M1, B) :- !,
|
|
always_strip_module(M0:A, M1, B).
|
|
always_strip_module(M0:A, M0, call(A)) :- var(A),!.
|
|
always_strip_module(M0:A, M0, A).
|
|
|
|
c_location( matrix, 'library/matrix').
|
|
c_location( lammpi, 'library/lammpi').
|
|
c_location( matlab, 'library/matlab').
|
|
c_location( matlab, 'library/matlab').
|
|
c_location( matlab, 'library/random').
|
|
c_location( regex, 'library/regex').
|
|
c_location( rltree, 'library/rltree').
|
|
c_location( tries, 'library/tries').
|
|
c_location( operating_system_support, 'library/system').
|
|
|
|
c_links :-
|
|
node( M, P, _, c(F)),
|
|
format( ':- implements( ~q , ~q ).~n', [M:P, F] ),
|
|
fail.
|
|
c_links.
|