516 lines
13 KiB
Prolog
516 lines
13 KiB
Prolog
/*************************************************************************
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* *
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* YAP Prolog *
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* *
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* Yap Prolog was developed at NCCUP - Universidade do Porto *
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* *
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* Copyright L.Damas, V.S.Costa and Universidade do Porto 1985-1997 *
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* *
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**************************************************************************
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* *
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* File: atts.yap *
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* Last rev: 8/2/88 *
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* mods: *
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* comments: attribute support for Prolog *
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* *
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*************************************************************************/
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/**
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@file attributes.yap
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@defgroup New_Style_Attribute_Declarations hProlog and SWI-Prolog style Attribute Declarations
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@ingroup attributes
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@{
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*/
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:- module( attributes, [delayed_goals/4,
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all_attvars/1,
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bind_attvar/1,
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del_all_atts/1,
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del_all_module_atts/2,
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get_all_swi_atts/2,
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get_module_atts/2,
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modules_with_attributes/1,
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put_att_term/2,
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put_module_atts/2,
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unbind_attvar/1,
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woken_att_do/4]) .
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:- use_system_module( '$_boot', ['$undefp'/1]).
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:- use_system_module( '$_errors', ['$do_error'/2]).
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:- use_system_module( '$coroutining', [attr_unify_hook/2]).
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:- dynamic attributes:existing_attribute/4.
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:- dynamic attributes:modules_with_attributes/1.
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:- dynamic attributes:attributed_module/3.
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:- multifile
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attributes:attributed_module/3.
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:- dynamic existing_attribute/4.
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:- dynamic modules_with_attributes/1.
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:- dynamic attributed_module/3.
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/** @pred get_attr( + Var,+ Module,- Value)
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Request the current _value_ for the attribute named _Module_. If
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_Var_ is not an attributed variable or the named attribute is not
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associated to _Var_ this predicate fails silently. If _Module_
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is not an atom, a type error is raised.
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*/
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prolog:get_attr(Var, Mod, Att) :-
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functor(AttTerm, Mod, 2),
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arg(2, AttTerm, Att),
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attributes:get_module_atts(Var, AttTerm).
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/**
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@pred put_attr(+ _Var_,+ _Module_,+ _Value_)
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If _Var_ is a variable or attributed variable, set the value for the
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attribute named _Module_ to _Value_. If an attribute with this
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name is already associated with _Var_, the old value is replaced.
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Backtracking will restore the old value (i.e., an attribute is a mutable
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term. See also `setarg/3`). This predicate raises a representation error if
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_Var_ is not a variable and a type error if _Module_ is not an atom.
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*/
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prolog:put_attr(Var, Mod, Att) :-
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functor(AttTerm, Mod, 2),
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arg(2, AttTerm, Att),
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attributes:put_module_atts(Var, AttTerm).
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/** @pred del_attr(+ _Var_,+ _Module_)
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Delete the named attribute. If _Var_ loses its last attribute it
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is transformed back into a traditional Prolog variable. If _Module_
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is not an atom, a type error is raised. In all other cases this
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predicate succeeds regardless whether or not the named attribute is
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present.
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*/
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prolog:del_attr(Var, Mod) :-
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functor(AttTerm, Mod, 2),
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attributes:del_all_module_atts(Var, AttTerm).
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/** @pred del_attrs(+ _Var_)
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If _Var_ is an attributed variable, delete <em>all</em> its
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attributes. In all other cases, this predicate succeeds without
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side-effects.
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*/
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prolog:del_attrs(Var) :-
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attributes:del_all_atts(Var).
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/**
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@pred get_attrs(+ _Var_,- _Attributes_)
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Get all attributes of _Var_. _Attributes_ is a term of the form
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`att( _Module_, _Value_, _MoreAttributes_)`, where _MoreAttributes_ is
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`[]` for the last attribute.
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*/
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prolog:get_attrs(AttVar, SWIAtts) :-
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attributes:get_all_swi_atts(AttVar,SWIAtts).
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/** @pred put_attrs(+ _Var_,+ _Attributes_)
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Set all attributes of _Var_. See get_attrs/2 for a description of
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_Attributes_.
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*/
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prolog:put_attrs(_, []).
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prolog:put_attrs(V, Atts) :-
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cvt_to_swi_atts(Atts, YapAtts),
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attributes:put_att_term(V, YapAtts).
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cvt_to_swi_atts([], _).
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cvt_to_swi_atts(att(Mod,Attribute,Atts), ModAttribute) :-
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ModAttribute =.. [Mod, YapAtts, Attribute],
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cvt_to_swi_atts(Atts, YapAtts).
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/** @pred copy_term(? _TI_,- _TF_,- _Goals_)
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Term _TF_ is a variant of the original term _TI_, such that for
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each variable _V_ in the term _TI_ there is a new variable _V'_
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in term _TF_ without any attributes attached. Attributed
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variables are thus converted to standard variables. _Goals_ is
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unified with a list that represents the attributes. The goal
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`maplist(call, _Goals_)` can be called to recreate the
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attributes.
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Before the actual copying, `copy_term/3` calls
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`attribute_goals/1` in the module where the attribute is
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defined.
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*/
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prolog:copy_term(Term, Copy, Gs) :-
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term_attvars(Term, Vs),
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( Vs == []
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-> Gs = [],
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copy_term(Term, Copy)
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; findall(Term-Gs,
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attributes:residuals_and_delete_attributes(Vs, Gs, Term),
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[Copy-Gs])
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).
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residuals_and_delete_attributes(Vs, Gs, Term) :-
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attvars_residuals(Vs, Gs, []),
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delete_attributes(Term).
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attvars_residuals([]) --> [].
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attvars_residuals([V|Vs]) -->
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{ nonvar(V) }, !,
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attvars_residuals(Vs).
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attvars_residuals([V|Vs]) -->
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( { get_attrs(V, As) }
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-> attvar_residuals(As, V)
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; []
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),
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attvars_residuals(Vs).
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%
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% wake_up_goal is called by the system whenever a suspended goal
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% resumes.
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%
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/* The first case may happen if this variable was used for dif.
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In this case, we need a way to keep the original
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suspended goal around
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*/
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%'$wake_up_goal'([Module1|Continuation],G) :-
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% '$write'(4,vsc_woke:G+[Module1|Continuation]:'
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%'), fail.
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prolog:'$wake_up_goal'([Module1|Continuation], LG) :-
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% writeln( [Module1|Continuation]:LG),
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execute_woken_system_goals(LG),
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do_continuation(Continuation, Module1).
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%
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% in the first two cases restore register immediately and proceed
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% to continuation. In the last case take care with modules, but do
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% not act as if a meta-call.
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%
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%
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do_continuation('$cut_by'(X), _) :- !,
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'$$cut_by'(X).
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do_continuation('$restore_regs'(X), _) :- !,
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% yap_flag(gc_trace,verbose),
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% garbage_collect,
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'$restore_regs'(X).
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do_continuation('$restore_regs'(X,Y), _) :- !,
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% yap_flag(gc_trace,verbose),
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% garbage_collect,
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'$restore_regs'(X,Y).
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do_continuation(Continuation, Module1) :-
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execute_continuation(Continuation,Module1).
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execute_continuation(Continuation, Module1) :-
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'$undefined'(Continuation, Module1), !,
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'$current_module'( M ),
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current_prolog_flag( M:unknown, Default ),
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'$undefp'([Module1|Continuation] , Default ).
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execute_continuation(Continuation, Mod) :-
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% do not do meta-expansion nor any fancy stuff.
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'$execute0'(Continuation, Mod).
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execute_woken_system_goals([]).
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execute_woken_system_goals(['$att_do'(V,New)|LG]) :-
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execute_woken_system_goals(LG),
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call_atts(V,New).
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%
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% what to do when an attribute gets bound
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%
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call_atts(V,_) :-
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nonvar(V), !.
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call_atts(V,_) :-
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'$att_bound'(V), !.
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call_atts(V,New) :-
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attributes:get_all_swi_atts(V,SWIAtts),
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(
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'$undefined'(woken_att_do(V, New, LGoals, DoNotBind), attributes)
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->
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LGoals = [],
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DoNotBind = false
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;
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attributes:woken_att_do(V, New, LGoals, DoNotBind)
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),
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( DoNotBind == true
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->
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attributes:unbind_attvar(V)
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;
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attributes:bind_attvar(V)
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),
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do_hook_attributes(SWIAtts, New),
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lcall(LGoals).
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do_hook_attributes([], _).
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do_hook_attributes(att(Mod,Att,Atts), Binding) :-
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('$undefined'(attr_unify_hook(Att,Binding), Mod)
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->
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true
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;
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Mod:attr_unify_hook(Att, Binding)
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),
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do_hook_attributes(Atts, Binding).
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lcall([]).
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lcall([Mod:Gls|Goals]) :-
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lcall2(Gls,Mod),
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lcall(Goals).
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lcall2([], _).
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lcall2([Goal|Goals], Mod) :-
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call(Mod:Goal),
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lcall2(Goals, Mod).
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/** @pred call_residue_vars(: _G_, _L_)
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Call goal _G_ and unify _L_ with a list of all constrained variables created <em>during</em> execution of _G_:
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~~~~~
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?- dif(X,Z), call_residue_vars(dif(X,Y),L).
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dif(X,Z), call_residue_vars(dif(X,Y),L).
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L = [Y],
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dif(X,Z),
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dif(X,Y) ? ;
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no
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~~~~~
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*/
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prolog:call_residue_vars(Goal,Residue) :-
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attributes:all_attvars(Vs0),
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call(Goal),
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attributes:all_attvars(Vs),
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% this should not be actually strictly necessary right now.
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% but it makes it a safe bet.
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sort(Vs, Vss),
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sort(Vs0, Vs0s),
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'$ord_remove'(Vss, Vs0s, Residue).
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'$ord_remove'([], _, []).
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'$ord_remove'([V|Vs], [], [V|Vs]).
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'$ord_remove'([V1|Vss], [V2|Vs0s], Residue) :-
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( V1 == V2 ->
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'$ord_remove'(Vss, Vs0s, Residue)
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;
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V1 @< V2 ->
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Residue = [V1|ResidueF],
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'$ord_remove'(Vss, [V2|Vs0s], ResidueF)
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;
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'$ord_remove'([V1|Vss], Vs0s, Residue)
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).
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/** @pred attribute_goals(+ _Var_,- _Gs_,+ _GsRest_)
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This nonterminal, if it is defined in a module, is used by _copy_term/3_
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to project attributes of that module to residual goals. It is also
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used by the toplevel to obtain residual goals after executing a query.
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Normal user code should deal with put_attr/3, get_attr/3 and del_attr/2.
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The routines in this section fetch or set the entire attribute list of a
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variables. Use of these predicates is anticipated to be restricted to
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printing and other special purpose operations.
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*/
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/** @pred Module:attribute_goal( -Var, Goal)
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User-defined procedure, called to convert the attributes in _Var_ to
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a _Goal_. Should fail when no interpretation is available.
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*/
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attvar_residuals(att(Module,Value,As), V) -->
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( { nonvar(V) }
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-> % a previous projection predicate could have instantiated
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% this variable, for example, to avoid redundant goals
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[]
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; generate_goals( V, As, Value, Module)
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).
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generate_goals( V, _, Value, Module) -->
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{ attributes:module_has_attributes(Module) },
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% like run, put attributes back first
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{ Value =.. [Name,_|Vs],
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NValue =.. [Name,_|Vs],
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attributes:put_module_atts(V,NValue)
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},
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{ current_predicate(Module:attribute_goal/2) },
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{ call(Module:attribute_goal(V, Goal)) },
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dot_list(Goal),
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[put_attr(V, Module, Value)].
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generate_goals( V, _, _Value , Module) -->
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{ '$pred_exists'(attribute_goals(_,_,_), Module) },
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call(Module:attribute_goals(V) ).
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attributes:module_has_attributes(Mod) :-
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attributes:attributed_module(Mod, _, _), !.
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list([]) --> [].
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list([L|Ls]) --> [L], list(Ls).
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dot_list((A,B)) --> !, dot_list(A), dot_list(B).
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dot_list(A) --> [A].
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delete_attributes(Term) :-
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term_attvars(Term, Vs),
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delete_attributes_(Vs).
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delete_attributes_([]).
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delete_attributes_([V|Vs]) :-
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del_attrs(V),
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delete_attributes_(Vs).
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/** @pred call_residue(: _G_, _L_)
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Call goal _G_. If subgoals of _G_ are still blocked, return
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a list containing these goals and the variables they are blocked in. The
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goals are then considered as unblocked. The next example shows a case
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where dif/2 suspends twice, once outside call_residue/2,
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and the other inside:
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~~~~~
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?- dif(X,Y),
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call_residue((dif(X,Y),(X = f(Z) ; Y = f(Z))), L).
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X = f(Z),
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L = [[Y]-dif(f(Z),Y)],
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dif(f(Z),Y) ? ;
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Y = f(Z),
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L = [[X]-dif(X,f(Z))],
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dif(X,f(Z)) ? ;
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no
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~~~~~
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The system only reports one invocation of dif/2 as having
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suspended.
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*/
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prolog:call_residue(Goal,Residue) :-
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var(Goal), !,
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'$do_error'(instantiation_error,call_residue(Goal,Residue)).
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prolog:call_residue(Module:Goal,Residue) :-
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atom(Module), !,
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call_residue(Goal,Module,Residue).
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prolog:call_residue(Goal,Residue) :-
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'$current_module'(Module),
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call_residue(Goal,Module,Residue).
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call_residue(Goal,Module,Residue) :-
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prolog:call_residue_vars(Module:Goal,NewAttVars),
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(
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attributes:modules_with_attributes([_|_])
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->
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project_attributes(NewAttVars, Module:Goal)
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;
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true
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),
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copy_term(Goal, Goal, Residue).
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attributes:delayed_goals(G, Vs, NVs, Gs) :-
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project_delayed_goals(G),
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% term_factorized([G|Vs], [_|NVs], Gs).
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copy_term([G|Vs], [_|NVs], Gs).
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project_delayed_goals(G) :-
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% SICStus compatible step,
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% just try to simplify store by projecting constraints
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% over query variables.
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% called by top_level to find out about delayed goals
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attributes:modules_with_attributes([_|_]), !,
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attributes:all_attvars(LAV),
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LAV = [_|_],
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project_attributes(LAV, G), !.
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project_delayed_goals(_).
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attributed(G, Vs) :-
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term_variables(G, LAV),
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att_vars(LAV, Vs).
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att_vars([], []).
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att_vars([V|LGs], [V|AttVars]) :- attvar(V), !,
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att_vars(LGs, AttVars).
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att_vars([_|LGs], AttVars) :-
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att_vars(LGs, AttVars).
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% make sure we set the suspended goal list to its previous state!
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% make sure we have installed a SICStus like constraint solver.
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/** @pred Module:project_attributes( +AttrVars, +Goal)
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Given a goal _Goal_ with variables _QueryVars_ and list of attributed
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variables _AttrVars_, project all attributes in _AttrVars_ to
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_QueryVars_. Although projection is constraint system dependent,
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typically this will involve expressing all constraints in terms of
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_QueryVars_ and considering all remaining variables as existentially
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quantified.
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Projection interacts with attribute_goal/2 at the Prolog top
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level. When the query succeeds, the system first calls
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project_attributes/2. The system then calls
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attribute_goal/2 to get a user-level representation of the
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constraints. Typically, project_attributes/2 will convert from the
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original constraints into a set of new constraints on the projection,
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and these constraints are the ones that will have an
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attribute_goal/2 handler.
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*/
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project_attributes(AllVs, G) :-
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attributes:modules_with_attributes(LMods),
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LMods = [_|_],
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term_variables(G, InputVs),
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pick_att_vars(InputVs, AttIVs),
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project_module(LMods, AttIVs, AllVs).
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pick_att_vars([],[]).
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pick_att_vars([V|L],[V|NL]) :- attvar(V), !,
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pick_att_vars(L,NL).
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pick_att_vars([_|L],NL) :-
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pick_att_vars(L,NL).
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project_module([], _, _).
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project_module([Mod|LMods], LIV, LAV) :-
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'$pred_exists'(project_attributes(LIV, LAV),Mod),
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call(Mod:project_attributes(LIV, LAV)), !,
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attributes:all_attvars(NLAV),
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project_module(LMods,LIV,NLAV).
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project_module([_|LMods], LIV, LAV) :-
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project_module(LMods,LIV,LAV).
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%% @}
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