171 lines
4.5 KiB
Prolog
171 lines
4.5 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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% :- yap_flag(unknown,error).
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% :- style_check(all).
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%
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% Code originally written by Arvin Bansal and Vitor Santos Costa
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% Includes nice extensions from Jan Wielemaker (from the SWI version).
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%
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:- module(coinduction,
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[ (coinductive)/1,
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op(1150, fx, (coinductive))
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]).
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:- use_module(library(error)).
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/** <module> Co-Logic Programming
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This simple module implements the directive coinductive/1 as described
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in "Co-Logic Programming: Extending Logic Programming with Coinduction"
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by Luke Somin et al. The idea behind coinduction is that a goal succeeds
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if it unifies to a parent goal. This enables some interesting programs,
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notably on infinite trees (cyclic terms).
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==
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:- use_module(library(coinduction)).
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:- coinductive stream/1.
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stream([H|T]) :- i(H), stream(T).
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% inductive
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i(0).
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i(s(N)) :- i(N).
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?- X=[s(s(A))|X], stream(X).
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X= [s(s(A))|X], stream(X).
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A = 0,
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X = [s(s(0)),**]
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==
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This predicate is true for any cyclic list containing only 1-s,
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regardless of the cycle-length.
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@bug Programs mixing normal predicates and coinductive predicates must
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be _stratified_. The theory does not apply to normal Prolog calling
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coinductive predicates, calling normal Prolog predicates, etc.
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Stratification is not checked or enforced in any other way and thus
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left as a responsibility to the user.
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@see "Co-Logic Programming: Extending Logic Programming with Coinduction"
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by Luke Somin et al.
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*/
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:- meta_predicate coinductive(:).
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:- dynamic coinductive/3.
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%-----------------------------------------------------
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coinductive(Spec) :-
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var(Spec),
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!,
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throw(error(instantiation_error,coinductive(Spec))).
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coinductive(Module:Spec) :-
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coinductive_declaration(Spec, Module, coinductive(Module:Spec)).
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coinductive(Spec) :-
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prolog_load_context(module, Module),
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coinductive_declaration(Spec, Module, coinductive(Spec)).
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coinductive_declaration(Spec, _M, G) :-
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var(Spec),
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!,
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throw(error(instantiation_error,G)).
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coinductive_declaration((A,B), M, G) :- !,
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coinductive_declaration(A, M, G),
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coinductive_declaration(B, M, G).
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coinductive_declaration(M:Spec, _, G) :- !,
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coinductive_declaration(Spec, M, G).
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coinductive_declaration(Spec, M, _G) :-
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valid_pi(Spec, F, N),
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functor(S,F,N),
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atomic_concat(['__coinductive__',F,'/',N],NF),
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functor(NS,NF,N),
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match_args(N,S,NS),
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atomic_concat(['__stack_',M,':',F,'/',N],SF),
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nb_setval(SF, _),
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assert((M:S :-
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b_getval(SF,L),
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coinduction:in_stack(S, L, End),
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(
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nonvar(End)
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->
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true
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;
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End = [S|_],
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M:NS)
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)
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),
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assert(coinduction:coinductive(S,M,NS)).
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valid_pi(Name/Arity, Name, Arity) :-
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must_be(atom, Name),
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must_be(integer, Arity).
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match_args(0,_,_) :- !.
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match_args(I,S1,S2) :-
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arg(I,S1,A),
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arg(I,S2,A),
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I1 is I-1,
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match_args(I1,S1,S2).
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%-----------------------------------------------------
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co_term_expansion((M:H :- B), _, (M:NH :- B)) :- !,
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co_term_expansion((H :- B), M, (NH :- B)).
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co_term_expansion((H :- B), M, (NH :- B)) :- !,
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coinductive(H, M, NH), !.
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co_term_expansion(H, M, NH) :-
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coinductive(H, M, NH), !.
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user:term_expansion(M:Cl,M:NCl ) :- !,
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co_term_expansion(Cl, M, NCl).
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user:term_expansion(G, NG) :-
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prolog_load_context(module, Module),
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co_term_expansion(G, Module, NG).
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%-----------------------------------------------------
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in_stack(_, V, V) :- var(V), !.
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in_stack(G, [G|_], [G|_]) :- !.
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in_stack(G, [_|T], End) :- in_stack(G, T, End).
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writeG_val(G_var) :-
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b_getval(G_var, G_val),
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write(G_var), write(' ==> '), write(G_val), nl.
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%-----------------------------------------------------
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/**************************************
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Some examples from Coinductive Logic Programming and its Applications by Gopal Gupta et al, ICLP 97
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:- coinductive stream/1.
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stream([H|T]) :- i(H), stream(T).
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% inductive
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i(0).
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i(s(N)) :- i(N).
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**************************************/
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