e5f4633c39
which included commits to RCS files with non-trunk default branches. git-svn-id: https://yap.svn.sf.net/svnroot/yap/trunk@5 b08c6af1-5177-4d33-ba66-4b1c6b8b522a
142 lines
2.9 KiB
Prolog
142 lines
2.9 KiB
Prolog
% Feature Tree Constraints (CFT) ---------------------------------------------
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% following Records for Logic Programming (Smolka,Treinen) JLP 1994:18:229-258
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% 950512 Thom Fruehwirth ECRC, based on osf.pl, see also kl-one.pl, type.pl
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% 980211, 980311 Thom Fruehwirth LMU for Sicstus CHR
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:- use_module( library(chr)).
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handler cft.
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operator(100,xfx,'::'). % Variable::Sort/Expression sort constraint
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operator(100,xfx,'@@'). % Variable@@LabelList arity/label constraint
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operator(450,xfy,'##'). % Variable##Feature##Value feature constraint
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% in X@@A assumes that A is a sorted list of ground features
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% in X##F##Y assumes that feature F is a ground term and Y stays a variable or is atomic
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constraints (::)/2, (@@)/2, (##)/2.
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% CFT Term Dissolution
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X::T <=> nonvar(T), \+ atomic(T) | dissolve(X,T).
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dissolve(X,T):-
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T=..[S|Ls], X::S, dissolve1(X,Ls,A), sort(A,As), X@@As.
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dissolve1(X,[],[]).
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dissolve1(X,[L1::T1|Ls],[L1|Ls1]):-
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X##L1##TV,
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(nonvar(T1) -> dissolve(TV,T1) ; TV=T1),
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dissolve1(X,Ls,Ls1).
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%!!! sort arity list, load member/2
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% CFT Axiom scheme
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% see section 3, p.235, p.236
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% see proof of proposition 6.5, p.245
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% (S) sort are pairwise disjoint
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X::S1 \ X::S2 <=> S1=S2.
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% (F) features are functional
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X##L##Y \ X##L##Z <=> Y=Z.
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% (A2) arities are unique
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% sorting removes duplicate features
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X@@A1 \ X@@A2 <=> A1=A2.
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% (A1) If X has arity A, exactly the features in A are defined on X
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X@@A, X##F##Y ==> member(F,A).
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member(X,[Y|L]):- X=Y ; member(X,L).
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% (D) determinant
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% not implemented yet
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% EXAMPLES ---------------------------------------------------------------
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% page 236, determinant
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eg0([U,V,W]-[X,Y,Z]):-
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X::a(f::V,g::Y),
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Y::b(f::X,g::Z,h::u),
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Z::a(f::W,g::Y,h::Z).
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% cyclic structure, adapted from page 1, DEC-PRL RR 32
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eg1(P):-
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P::person(name::id(first::_,
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last::S),
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age::30,
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spouse::person(name::id(last::S),
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spouse::P)).
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% cyclic list, adapted from p. 3, DEC-PRL RR 32
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eg2(X):-
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X::cons(head::1,tail::X).
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eg2a(X):- % same result as eg2(X)
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X::cons(head::1,tail::X), X::cons(head::1,tail::cons(head::1,tail::X)).
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% adapted from p.17, DEC-PRL RR 32
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eg3(X):-
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X::s1(l1::s),X::s2(l2::s).
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/*
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| ?- eg0(X); eg1(X) ; eg2(X) ; eg2a(X) ; eg3(X).
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X = [_A,_B,_C]-[_D,_E,_F],
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_D::a,
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_D##f##_B,
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_D##g##_E,
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_D@@[f,g],
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_E::b,
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_E##f##_D,
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_E##g##_F,
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_E##h##_G,
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_G::u,
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_G@@[],
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_E@@[f,g,h],
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_F::a,
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_F##f##_C,
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_F##g##_E,
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_F##h##_F,
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_F@@[f,g,h] ? ;
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X::person,
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X##name##_A,
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_A::id,
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_A##first##_B,
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_A##last##_C,
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_A@@[first,last],
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X##age##_D,
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_D::30,
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_D@@[],
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X##spouse##_E,
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_E::person,
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_E##name##_F,
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_F::id,
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_F##last##_C,
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_F@@[last],
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_E##spouse##X,
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_E@@[name,spouse],
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X@@[age,name,spouse] ? ;
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X::cons,
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X##head##_A,
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_A::1,
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_A@@[],
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X##tail##X,
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X@@[head,tail] ? ;
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X::cons,
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X##head##_A,
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_A::1,
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_A@@[],
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X##tail##X,
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X@@[head,tail] ? ;
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*/
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% end of handler cft ----------------------------------------------------------
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