pl_graphs(Dir - Mod) :-
atom( Dir ),
format(' ************* GRAPH: ~a ***********************/~n', [Dir]),
atom_concat([Dir,'/*'], Pattern),
expand_file_name( Pattern, Files ),
member( File, Files ),
( ( sub_atom(File,_,_,0,'.yap') ; sub_atom(File,_,_,0,'.pl') ) ->
build_graph( File , Mod )
;
exists_directory( File ),
\+ atom_concat(_, '/.', File),
\+ atom_concat(_, '/..', File),
\+ atom_concat(_, '/.git', File),
pl_graphs( File - Mod )
),
fail.
pl_graphs(_).
%%
%% @pred build_graph( File, Mod)
% adds a node to the file graph and marks which files are modules
%
% main side-effect facts like edge( F0-Mod:File )
% exported( F-M , N/A ) or exported(F- M. Op ),
% module_on ( M, File )
% pred ( M :N/A )
%
build_graph(F, Mod) :-
% writeln(F),
preprocess_file( F, PF ),
catch( open(PF, read, S, [script(true)]), _, fail ),
repeat,
nb_getval( current_module, MR ),
catch(read_clause( S, T, [term_position(Pos),module(MR),comments(Cs)] ), Throw, error(Throw) ),
(
T == end_of_file
->
!,% also, clo ops defined in the module M, if M \= Mod
% ( sub_atom(F,_,_,_,'/matrix.yap') -> start_low_level_trace ; nospyall ),
close(S)
;
stream_position_data( line_count, Pos, Line ),
maplist( comment, Cs ),
nb_setval( line, Line ),
nb_getval( current_module, MC0 ),
( Mod == prolog -> MC = prolog ; MC = MC0 ),
get_graph( T, F, Line, MC ),
fail
).
get_graph( V , _F, _Pos, _M ) :-
var( V ),
!,
error( instantiation_error ).
get_graph( T, _F, _Pos, _M0 ) :-
var(T),
!.
get_graph( M:T, F, Pos, _M0 ) :- !,
always_strip_module(M:T, NM, NT),
get_graph( NT, F, Pos, NM ).
get_graph( ( M:H :- B), F, Pos, M0 ) :-
!,
get_graph( (H :- M0:B), F, Pos, M ).
get_graph( ( M:H --> B), F, Pos, M0 ) :-
!,
get_graph( ( H --> M0:B), F, Pos, M ).
get_graph( ( A, _ --> B), F, Pos, M ) :-
!,
get_graph( ( A --> B), F, _Pos, M ).
get_graph( (H --> B), F, Pos, M ) :-
!,
functor( H, N, Ar),
Ar2 is Ar+2,
add_deps( B, M, M:N/Ar2, F, Pos, 2 ).
get_graph( (H :- B), F, Pos, M ) :-
!,
functor( H, N, Ar),
add_deps( B, M, M:N/Ar, F, Pos, 0 ).
%% switches to new file n
get_graph( (:-include( Fs ) ), F, _Pos, M ) :-
!,
source_graphs( M, F, Fs ).
get_graph( (?- _ ), _F, _Pos, _M ) :- !.
get_graph( (:- _ ), _F, _Pos, _M ) :- !.
get_graph( _H, _F, _Pos, _M ).
source_graphs( M, F, Fs ) :-
maplist( source_graph( M, F ), Fs ), !.
source_graphs( M, F, Fs ) :-
search_file( Fs, F, pl, NF ),
build_graph( NF , M ), !.
add_deps(V, _M, _P, _F, _Pos, _) :-
var(V), !.
add_deps(M1:G, _M, _P, _F, _Pos,L) :-
!,
always_strip_module(M1:G, M2, G2),
add_deps(G2, M2, _P, _F, _Pos, L).
add_deps((A,B), M, P, F, _Pos, L) :-
!,
add_deps(A, M, P, F, _Pos, L),
add_deps(B, M, P, F, _Pos, L).
add_deps((A;B), M, P, F, _Pos, L) :- !,
add_deps(A, M, P, F, _Pos, L),
add_deps(B, M, P, F, _Pos, L).
add_deps((A|B), M, P, F, _Pos, L) :- !,
add_deps(A, M, P, F, _Pos, L),
add_deps(B, M, P, F, _Pos, L).
add_deps((A->B), M, P, F, _Pos, L) :- !,
add_deps(A, M, P, F, _Pos, L),
add_deps(B, M, P, F, _Pos, L).
add_deps((A*->B), M, P, F, _Pos, L) :- !,
add_deps(A, M, P, F, _Pos, L),
add_deps(B, M, P, F, _Pos, L).
add_deps(once(A), M, P, F, _Pos, L) :- !,
add_deps(A, M, P, F, _Pos, L).
add_deps({A}, M, P, F, _Pos, 2) :- !,
add_deps(A, M, P, F, _Pos, 0).
add_deps([_|_], M, P, F, Pos, 2) :-
!,
put_dep( (F-M:P :- boot-prolog:'C'/3 ), Pos ).
add_deps(String, _M, _P, _F, _Pos, _) :- string(String), !.
add_deps([], _M, _P, _F, _Pos, 2) :- !.
add_deps(!, _M, _P, _F, _Pos, _) :- !.
add_deps(true, _M, _P, _F, _Pos, 0) :- !.
add_deps(false, _M, _P, _F, _Pos, 0) :- !.
add_deps(fail, _M, _P, _F, _Pos, 0) :- !.
add_deps(repeat, _M, _P, _F, _Pos, 0) :- !.
add_deps(A, M, P, F, Pos, L) :-
% we're home, M:N/Ar -> P=M1:N1/A1
functor(A, N, Ar0),
Ar is Ar0+L,
put_dep( ( F-M:P :- F-M:N/Ar ), Pos ).
put_dep( (Target :- F0-G0 ), _Pos ) :-
ground(F0-G0), !,
Target = F-G,
assert_new_e( F, G, F0, G0 ).
put_dep(_,_).
% prolog is visible ( but maybe not same file )
m_exists(P, F) :- private( F, P ), !.
m_exists(P, F) :- public( F, P ).