583 lines
16 KiB
Prolog
583 lines
16 KiB
Prolog
/**
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@{
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@defgroup YAPMetaPredicates Using Meta-Calls with Modules
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@ingroup YAPModules
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@pred meta_predicate(_G1_,...., _Gn) is directive
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Declares that this predicate manipulates references to predicates.
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Each _Gi_ is a mode specification.
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If the argument is `:`, it does not refer directly to a predicate
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but must be module expanded. If the argument is an integer, the argument
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is a goal or a closure and must be expanded. Otherwise, the argument is
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not expanded. Note that the system already includes declarations for all
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built-ins.
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For example, the declaration for call/1 and setof/3 are:
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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:- meta_predicate call(0), setof(?,0,?).
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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meta_predicate declaration
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implemented by asserting $meta_predicate(SourceModule,Functor,Arity,Declaration)
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*/
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% directive now meta_predicate Ps :- $meta_predicate(Ps).
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:- dynamic prolog:'$meta_predicate'/4.
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:- multifile prolog:'$meta_predicate'/4,
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'$inline'/2,
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'$full_clause_optimisation'/4.
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'$meta_predicate'(M:P) :-
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var(P),
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'$do_error'(instantiation_error,meta_predicate(M:P)).
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'$meta_predicate'(M:P) :-
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var(M),
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'$do_error'(instantiation_error,meta_predicate(M:P)).
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'$meta_predicate'(M:(P,Ps)) :- !,
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'$meta_predicate'(M:P),
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'$meta_predicate'(M:Ps).
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'$meta_predicate'( M:D ) :-
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'$yap_strip_module'( M:D, M1, P),
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'$install_meta_predicate'(M1:P).
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'$install_meta_predicate'(M1:P) :-
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functor(P,F,N),
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( M1 = prolog -> M = _ ; M1 = M),
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( retractall(prolog:'$meta_predicate'(F,M,N,_)), fail ; true),
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asserta(prolog:'$meta_predicate'(F,M,N,P)),
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'$predicate_flags'(P, M1, Fl, Fl),
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NFlags is Fl \/ 0x200000,
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'$predicate_flags'(P, M1, Fl, NFlags).
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% comma has its own problems.
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:- '$install_meta_predicate'(prolog:','(0,0)).
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%% handle module transparent predicates by defining a
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%% new context module.
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'$is_mt'(H, B, HM, _SM, M, (context_module(CM),B), CM) :-
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'$yap_strip_module'(HM:H, M, NH),
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'$module_transparent'(_, M, _, NH), !.
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'$is_mt'(_H, B, _HM, _SM, BM, B, BM).
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% I assume the clause has been processed, so the
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% var case is long gone! Yes :)
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'$clean_cuts'(G,('$current_choicepoint'(DCP),NG)) :-
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'$conj_has_cuts'(G,DCP,NG,OK), OK == ok, !.
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'$clean_cuts'(G,G).
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'$clean_cuts'(G,DCP,NG) :-
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'$conj_has_cuts'(G,DCP,NG,OK), OK == ok, !.
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'$clean_cuts'(G,_,G).
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'$conj_has_cuts'(V,_,V, _) :- var(V), !.
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'$conj_has_cuts'(!,DCP,'$$cut_by'(DCP), ok) :- !.
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'$conj_has_cuts'((G1,G2),DCP,(NG1,NG2), OK) :- !,
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'$conj_has_cuts'(G1, DCP, NG1, OK),
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'$conj_has_cuts'(G2, DCP, NG2, OK).
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'$conj_has_cuts'((G1;G2),DCP,(NG1;NG2), OK) :- !,
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'$conj_has_cuts'(G1, DCP, NG1, OK),
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'$conj_has_cuts'(G2, DCP, NG2, OK).
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'$conj_has_cuts'((G1->G2),DCP,(G1;NG2), OK) :- !,
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% G1: the system must have done it already
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'$conj_has_cuts'(G2, DCP, NG2, OK).
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'$conj_has_cuts'((G1*->G2),DCP,(G1;NG2), OK) :- !,
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% G1: the system must have done it already
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'$conj_has_cuts'(G2, DCP, NG2, OK).
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'$conj_has_cuts'(if(G1,G2,G3),DCP,if(G1,NG2,NG3), OK) :- !,
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% G1: the system must have done it already
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'$conj_has_cuts'(G2, DCP, NG2, OK),
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'$conj_has_cuts'(G3, DCP, NG3, OK).
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'$conj_has_cuts'(G,_,G, _).
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% return list of vars in expanded positions on the head of a clause.
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%
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% these variables should not be expanded by meta-calls in the body of the goal.
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%
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% should be defined before caller.
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%
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'$module_u_vars'(M, H, UVars) :-
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'$do_module_u_vars'(M:H,UVars).
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'$do_module_u_vars'(M:H,UVars) :-
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functor(H,F,N),
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'$meta_predicate'(F,M,N,D), !,
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'$do_module_u_vars'(N,D,H,UVars).
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'$do_module_u_vars'(_,[]).
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'$do_module_u_vars'(0,_,_,[]) :- !.
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'$do_module_u_vars'(I,D,H,LF) :-
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arg(I,D,X), ( X=':' -> true ; integer(X)),
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arg(I,H,A), '$uvar'(A, LF, L), !,
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I1 is I-1,
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'$do_module_u_vars'(I1,D,H,L).
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'$do_module_u_vars'(I,D,H,L) :-
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I1 is I-1,
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'$do_module_u_vars'(I1,D,H,L).
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'$uvar'(Y, [Y|L], L) :- var(Y), !.
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% support all/3
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'$uvar'(same( G, _), LF, L) :-
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'$uvar'(G, LF, L).
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'$uvar'('^'( _, G), LF, L) :-
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'$uvar'(G, LF, L).
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/**
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* @pred '$meta_expand'( _Input_, _HeadModule_, _BodyModule_, _SourceModule_, _HVars_-_Head_, _OutGoal_)
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*
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* expand Input if a metapredicate, otherwF,MI,Arity,PredDefise ignore
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*
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* @return
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*/
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'$meta_expand'(G, _, CM, HVars, OG) :-
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var(G),
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!,
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(
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lists:identical_member(G, HVars)
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->
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OG = G
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;
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OG = CM:G
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).
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% nothing I can do here:
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'$meta_expand'(G0, PredDef, CM, HVars, NG) :-
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G0 =.. [Name|GArgs],
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PredDef =.. [Name|GDefs],
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functor(PredDef, Name, Arity ),
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length(NGArgs, Arity),
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NG =.. [Name|NGArgs],
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'$expand_args'(GArgs, CM, GDefs, HVars, NGArgs).
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'$expand_args'([], _, [], _, []).
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'$expand_args'([A|GArgs], CM, [M|GDefs], HVars, [NA|NGArgs]) :-
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( M == ':' -> true ; number(M) ),
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!,
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'$expand_arg'(A, CM, HVars, NA),
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'$expand_args'(GArgs, CM, GDefs, HVars, NGArgs).
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'$expand_args'([A|GArgs], CM, [_|GDefs], HVars, [A|NGArgs]) :-
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'$expand_args'(GArgs, CM, GDefs, HVars, NGArgs).
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% check if an argument should be expanded
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'$expand_arg'(G, CM, HVars, OG) :-
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var(G),
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!,
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( lists:identical_member(G, HVars) -> OG = G; OG = CM:G).
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'$expand_arg'(G, CM, _HVars, NCM:NG) :-
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'$yap_strip_module'(CM:G, NCM, NG).
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% expand module names in a body
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% args are:
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% goals to expand
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% code to pass to listing
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% code to pass to compiler
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% head module HM
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% source module SM
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% current module for looking up preds M
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%
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% to understand the differences, you can consider:
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%
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% a:(d:b(X)) :- g:c(X), d(X), user:hello(X)).
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%
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% when we process meta-predicate c, HM=d, DM=a, BM=a, M=g and we should get:
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%
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% d:b(X) :- g:c(g:X), a:d(X), user:hello(X).
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%
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% on the other hand,
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%
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% a:(d:b(X) :- c(X), d(X), d:e(X)).
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%
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% will give
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%
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% d:b(X) :- a:c(a:X), a:d(X), e(X).
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%
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%
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% head variab'$expand_goals'(M:G,G1,GO,HM,SM,,_M,HVars)les.
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% goals or arguments/sub-arguments?
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% I cannot use call here because of format/3
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% modules:
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% A4: module for body of clause (this is the one used in looking up predicates)
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% A5: context module (this is the current context
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% A6: head module (this is the one used in compiling and accessing).
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%
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%
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%'$expand_goals'(V,NG,NG,HM,SM,BM,HVars):- writeln(V), fail.
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'$expand_goals'(V,NG,NGO,HM,SM,BM,HVars-H) :-
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var(V),
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!,
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( lists:identical_member(V, HVars)
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->
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'$expand_goals'(call(V),NG,NGO,HM,SM,BM,HVars-H)
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;
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( atom(BM)
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->
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NG = call(BM:V),
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NGO = '$execute_in_mod'(V,BM)
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;
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'$expand_goals'(call(BM:V),NG,NGO,HM,SM,BM,HVars-H)
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)
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).
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'$expand_goals'(BM:V,NG,NGO,HM,SM,_BM,HVarsH) :-
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'$yap_strip_module'( BM:V, CM, G),
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nonvar(CM),
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!,
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'$expand_goals'(G,NG,NGO,HM,SM,CM,HVarsH).
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'$expand_goals'(CM0:V,NG,NGO,HM,SM,BM,HVarsH) :-
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strip_module( CM0:V, CM, G),
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!,
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'$expand_goals'(call(CM:G),NG,NGO,HM,SM,BM,HVarsH).
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% if I don't know what the module is, I cannot do anything to the goal,
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% so I just put a call for later on.
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'$expand_goals'(V,NG,NGO,_HM,_SM,BM,_HVarsH) :-
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var(BM),
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!,
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NG = call(BM:V),
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NGO = '$execute_wo_mod'(V,BM).
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'$expand_goals'(depth_bound_call(G,D),
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depth_bound_call(G1,D),
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('$set_depth_limit_for_next_call'(D),GO),
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HM,SM,BM,HVars) :-
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'$expand_goals'(G,G1,GO,HM,SM,BM,HVars),
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'$composed_built_in'(GO), !.
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'$expand_goals'((A,B),(A1,B1),(AO,BO),HM,SM,BM,HVars) :- !,
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'$expand_goals'(A,A1,AO,HM,SM,BM,HVars),
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'$expand_goals'(B,B1,BO,HM,SM,BM,HVars).
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'$expand_goals'((A;B),(A1;B1),(AO;BO),HM,SM,BM,HVars) :- var(A), !,
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'$expand_goals'(A,A1,AO,HM,SM,BM,HVars),
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'$expand_goals'(B,B1,BO,HM,SM,BM,HVars).
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'$expand_goals'((A*->B;C),(A1*->B1;C1),
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(
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yap_hacks:current_choicepoint(DCP),
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AO,
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yap_hacks:cut_at(DCP),BO
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;
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CO
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),
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HM,SM,BM,HVars) :- !,
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'$expand_goals'(A,A1,AOO,HM,SM,BM,HVars),
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'$clean_cuts'(AOO, AO),
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'$expand_goals'(B,B1,BO,HM,SM,BM,HVars),
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'$expand_goals'(C,C1,CO,HM,SM,BM,HVars).
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'$expand_goals'((A;B),(A1;B1),(AO;BO),HM,SM,BM,HVars) :- !,
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'$expand_goals'(A,A1,AO,HM,SM,BM,HVars),
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'$expand_goals'(B,B1,BO,HM,SM,BM,HVars).
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'$expand_goals'((A|B),(A1|B1),(AO|BO),HM,SM,BM,HVars) :- !,
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'$expand_goals'(A,A1,AO,HM,SM,BM,HVars),
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'$expand_goals'(B,B1,BO,HM,SM,BM,HVars).
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'$expand_goals'((A->B),(A1->B1),(AO->BO),HM,SM,BM,HVars) :- !,
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'$expand_goals'(A,A1,AOO,HM,SM,BM,HVars),
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'$clean_cuts'(AOO, AO),
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'$expand_goals'(B,B1,BO,HM,SM,BM,HVars).
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'$expand_goals'(\+G,\+G,A\=B,_HM,_BM,_SM,_HVars) :-
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nonvar(G),
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G = (A = B),
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!.
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'$expand_goals'(\+A,\+A1,(AO-> false;true),HM,SM,BM,HVars) :- !,
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'$expand_goals'(A,A1,AO,HM,SM,BM,HVars).
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'$expand_goals'(once(A),once(A1),
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('$current_choice_point'(CP),AO,'$$cut_by'(CP)),HM,SM,BM,HVars) :- !,
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'$expand_goals'(A,A1,AO0,HM,SM,BM,HVars),
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'$clean_cuts'(AO0, CP, AO).
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'$expand_goals'(ignore(A),ignore(A1),
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(AO -> true ; true),HM,SM,BM,HVars) :- !,
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'$expand_goals'(A,A1,AO0,HM,SM,BM,HVars),
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'$clean_cuts'(AO0, AO).
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'$expand_goals'(forall(A,B),forall(A1,B1),
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((AO, ( BO-> false ; true)) -> false ; true),HM,SM,BM,HVars) :- !,
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'$expand_goals'(A,A1,AO0,HM,SM,BM,HVars),
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'$expand_goals'(B,B1,BO,HM,SM,BM,HVars),
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'$clean_cuts'(AO0, AO).
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'$expand_goals'(not(A),not(A1),(AO -> fail; true),HM,SM,BM,HVars) :- !,
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'$expand_goals'(A,A1,AO,HM,SM,BM,HVars).
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'$expand_goals'(if(A,B,C),if(A1,B1,C1),
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('$current_choicepoint'(DCP),AO,yap_hacks:cut_at(DCP),BO; CO),HM,SM,BM,HVars) :- !,
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'$expand_goals'(A,A1,AO0,HM,SM,BM,HVars),
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'$expand_goals'(B,B1,BO,HM,SM,BM,HVars),
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'$expand_goals'(C,C1,CO,HM,SM,BM,HVars),
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'$clean_cuts'(AO0, DCP, AO).
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'$expand_goals'((A*->B;C),(A1*->B1;C1),
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('$current_choicepoint'(DCP),AO,yap_hacks:cut_at(DCP),BO; CO),HM,SM,BM,HVars) :- !,
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'$expand_goals'(A,A1,AO0,HM,SM,BM,HVars),
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'$expand_goals'(B,B1,BO,HM,SM,BM,HVars),
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'$expand_goals'(C,C1,CO,HM,SM,BM,HVars),
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'$clean_cuts'(AO0, DCP, AO).
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'$expand_goals'((A*->B),(A1*->B1),
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('$current_choicepoint'(DCP),AO,BO),HM,SM,BM,HVars) :- !,
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'$expand_goals'(A,A1,AO0,HM,SM,BM,HVars),
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'$expand_goals'(B,B1,BO,HM,SM,BM,HVars),
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'$clean_cuts'(AO0, DCP, AO).
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'$expand_goals'(true,true,true,_,_,_,_) :- !.
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'$expand_goals'(fail,fail,fail,_,_,_,_) :- !.
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'$expand_goals'(false,false,false,_,_,_,_) :- !.
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'$expand_goals'(G, G1, GO, HM, SM, BM, HVars) :-
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'$yap_strip_module'(BM:G, NBM, GM),
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'$expand_goal'(GM, G1, GO, HM, SM, NBM, HVars).
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'$import_expansion'(M:G, M1:G1) :-
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'$imported_predicate'(G, M, G1, M1),
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!.
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'$import_expansion'(MG, MG).
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'$meta_expansion'(GMG, BM, HVars, GM:GF) :-
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'$yap_strip_module'(GMG, GM, G ),
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functor(G, F, Arity ),
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'$meta_predicate'(F, GM, Arity, PredDef),
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!,
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'$meta_expand'(G, PredDef, BM, HVars, GF).
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'$meta_expansion'(GMG, _BM, _HVars, GM:G) :-
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'$yap_strip_module'(GMG, GM, G ).
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/**
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* @brief Perform meta-variable and user expansion on a goal _G_
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*
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* given the example
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~~~~~
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:- module(m, []).
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o:p(B) :- n:g, X is 2+3, call(B).
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~~~~~
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*
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* @param G input goal, without module quantification.
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* @param G1F output, non-optimised for debugging
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* @param GOF output, optimised, ie, `n:g`, `prolog:(X is 2+3)`, `call(m:B)`, where `prolog` does not need to be explicit
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* @param GOF output, optimised, `n:g`, `prolog:(X=5)`, `call(m:B)`
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* @param HM head module, input, o
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* @param HM source module, input, m
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* @param M current module, input, `n`, `m`, `m`
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* @param HVars-H, list of meta-variables and initial head, `[]` and `p(B)`
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*
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*
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*/
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'$expand_goal'(G0, G1F, GOF, HM, SM, BM, HVars-H) :-
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'$yap_strip_module'( BM:G0, M0N, G0N),
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'$user_expansion'(M0N:G0N, M1:G1),
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'$import_expansion'(M1:G1, M2:G2),
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'$meta_expansion'(M2:G2, M1, HVars, M2:B1F),
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'$end_goal_expansion'(B1F, G1F, GOF, HM, SM, M2, H).
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'$end_goal_expansion'(G, G1F, GOF, HM, SM, BM, H) :-
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'$match_mod'(G, HM, SM, BM, G1F),
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'$c_built_in'(G1F, BM, H, GO),
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'$yap_strip_module'(BM:GO, MO, IGO),
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'$match_mod'(IGO, HM, SM, MO, GOF).
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'$user_expansion'(M0N:G0N, M1:G1) :-
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'_user_expand_goal'(M0N:G0N, M:G),
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!,
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( M:G == M0N:G0N
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->
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M1:G1 = M:G
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;
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'$user_expansion'(M:G, M1:G1)
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).
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'$user_expansion'(MG, MG).
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'$match_mod'(G, HMod, SMod, M, O) :-
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(
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% \+ '$is_multifile'(G1,M),
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%->
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'$is_system_predicate'(G,prolog)
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->
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O = G
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;
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M == HMod, M == SMod
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->
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O = G
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;
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O = M:G
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).
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'$build_up'(HM, NH, SM, true, NH, true, NH) :- HM == SM, !.
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|
'$build_up'(HM, NH, _SM, true, HM:NH, true, HM:NH) :- !.
|
|
'$build_up'(HM, NH, SM, B1, (NH :- B1), BO, ( NH :- BO)) :- HM == SM, !.
|
|
'$build_up'(HM, NH, _SM, B1, (NH :- B1), BO, ( HM:NH :- BO)) :- !.
|
|
|
|
'$expand_clause_body'(V, _NH1, _HM1, _SM, M, call(M:V), call(M:V) ) :-
|
|
var(V), !.
|
|
'$expand_clause_body'(true, _NH1, _HM1, _SM, _M, true, true ) :- !.
|
|
'$expand_clause_body'(B, H, HM, SM, M, B1, BO ) :-
|
|
'$module_u_vars'(HM , H, UVars), % collect head variables in
|
|
% expanded positions
|
|
% support for SWI's meta primitive.
|
|
'$is_mt'(H, B, HM, SM, M, IB, BM),
|
|
'$expand_goals'(IB, B1, BO1, HM, SM, BM, UVars-H),
|
|
(
|
|
'$full_clause_optimisation'(H, BM, BO1, BO)
|
|
->
|
|
true
|
|
;
|
|
BO = BO1
|
|
).
|
|
|
|
%
|
|
% check if current module redefines an imported predicate.
|
|
% and remove import.
|
|
%
|
|
'$not_imported'(H, Mod) :-
|
|
recorded('$import','$import'(NM,Mod,NH,H,_,_),R),
|
|
NM \= Mod,
|
|
functor(NH,N,Ar),
|
|
print_message(warning,redefine_imported(Mod,NM,N/Ar)),
|
|
erase(R),
|
|
fail.
|
|
'$not_imported'(_, _).
|
|
|
|
|
|
'$verify_import'(_M:G, prolog:G) :-
|
|
'$is_system_predicate'(G, prolog).
|
|
'$verify_import'(M:G, NM:NG) :-
|
|
'$get_undefined_pred'(G, M, NG, NM),
|
|
!.
|
|
'$verify_import'(MG, MG).
|
|
|
|
|
|
|
|
% expand arguments of a meta-predicate
|
|
% $meta_expansion(ModuleWhereDefined,CurrentModule,Goal,ExpandedGoal,MetaVariables)
|
|
|
|
|
|
% expand module names in a clause (interface predicate).
|
|
% A1: Input Clause
|
|
% A2: Output Class to Compiler (lives in module HM)
|
|
% A3: Output Class to clause/2 and listing (lives in module HM)
|
|
%
|
|
% modules:
|
|
% A6: head module (this is the one used in compiling and accessing).
|
|
% A5: context module (this is the current context
|
|
% A4: module for body of clause (this is the one used in looking up predicates)
|
|
%
|
|
% has to be last!!!
|
|
'$expand_a_clause'(MHB, SM0, Cl1, ClO) :- % MHB is the original clause, SM0 the current source, Cl1 and ClO output clauses
|
|
'$yap_strip_module'(SM0:MHB, SM, HB), % remove layers of modules over the clause. SM is the source module.
|
|
'$head_and_body'(HB, H, B), % HB is H :- B.
|
|
'$yap_strip_module'(SM:H, HM, NH), % further module expansion
|
|
'$not_imported'(NH, HM),
|
|
'$yap_strip_module'(SM:B, BM, B0), % further module expansion
|
|
'$expand_clause_body'(B0, NH, HM, SM0, BM, B1, BO),
|
|
'$build_up'(HM, NH, SM0, B1, Cl1, BO, ClO).
|
|
|
|
|
|
|
|
expand_goal(Input, Output) :-
|
|
'$expand_meta_call'(Input, [], Output ).
|
|
|
|
'$expand_meta_call'(G, HVars, MF:GF ) :-
|
|
source_module(SM),
|
|
'$yap_strip_module'(SM:G, M, IG),
|
|
'$expand_goals'(IG, _, GF0, M, SM, M, HVars-G),
|
|
'$yap_strip_module'(M:GF0, MF, GF).
|
|
|
|
:- '$meta_predicate'(prolog:(
|
|
abolish(:),
|
|
abolish(:,+),
|
|
all(?,0,-),
|
|
assert(:),
|
|
assert(:,+),
|
|
assert_static(:),
|
|
asserta(:),
|
|
asserta(:,+),
|
|
asserta_static(:),
|
|
assertz(:),
|
|
assertz(:,+),
|
|
assertz_static(:),
|
|
at_halt(0),
|
|
bagof(?,0,-),
|
|
bb_get(:,-),
|
|
bb_put(:,+),
|
|
bb_delete(:,?),
|
|
bb_update(:,?,?),
|
|
call(0),
|
|
call(1,?),
|
|
call(2,?,?),
|
|
call(3,?,?,?),
|
|
call_with_args(0),
|
|
call_with_args(1,?),
|
|
call_with_args(2,?,?),
|
|
call_with_args(3,?,?,?),
|
|
call_with_args(4,?,?,?,?),
|
|
call_with_args(5,?,?,?,?,?),
|
|
call_with_args(6,?,?,?,?,?,?),
|
|
call_with_args(7,?,?,?,?,?,?,?),
|
|
call_with_args(8,?,?,?,?,?,?,?,?),
|
|
call_with_args(9,?,?,?,?,?,?,?,?,?),
|
|
call_cleanup(0,0),
|
|
call_cleanup(0,?,0),
|
|
call_residue(0,?),
|
|
call_residue_vars(0,?),
|
|
call_shared_object_function(:,+),
|
|
catch(0,?,0),
|
|
clause(:,?),
|
|
clause(:,?,?),
|
|
compile(:),
|
|
consult(:),
|
|
current_predicate(:),
|
|
current_predicate(?,:),
|
|
db_files(:),
|
|
depth_bound_call(0,+),
|
|
discontiguous(:),
|
|
ensure_loaded(:),
|
|
exo_files(:),
|
|
findall(?,0,-),
|
|
findall(?,0,-,?),
|
|
forall(0,0),
|
|
format(+,:),
|
|
format(+,+,:),
|
|
freeze(?,0),
|
|
hide_predicate(:),
|
|
if(0,0,0),
|
|
ignore(0),
|
|
incore(0),
|
|
multifile(:),
|
|
nospy(:),
|
|
not(0),
|
|
notrace(0),
|
|
once(0),
|
|
phrase(2,?),
|
|
phrase(2,?,+),
|
|
predicate_property(:,?),
|
|
predicate_statistics(:,-,-,-),
|
|
on_exception(+,0,0),
|
|
qsave_program(+,:),
|
|
reconsult(:),
|
|
retract(:),
|
|
retract(:,?),
|
|
retractall(:),
|
|
reconsult(:),
|
|
setof(?,0,-),
|
|
setup_call_cleanup(0,0,0),
|
|
setup_call_catcher_cleanup(0,0,?,0),
|
|
spy(:),
|
|
stash_predicate(:),
|
|
use_module(:),
|
|
use_module(:,?),
|
|
use_module(?,:,?),
|
|
when(+,0),
|
|
with_mutex(+,0),
|
|
with_output_to(?,0),
|
|
'->'(0 , 0),
|
|
'*->'(0 , 0),
|
|
';'(0 , 0),
|
|
% ','(0 , 0),
|
|
^(+,0),
|
|
{}(0,?,?),
|
|
','(2,2,?,?),
|
|
;(2,2,?,?),
|
|
'|'(2,2,?,?),
|
|
->(2,2,?,?),
|
|
\+(2,?,?),
|
|
\+( 0 )
|
|
)).
|