# What's an elegant way to unify X,Y with (1,2), (1,-2), (-1,2), (-1,-2), (2,1), (2,-1) , (-2,1), (-2,-1)?

What's an elegant way to unify X,Y with (1,2), (1,-2), (-1,2), (-1,-2), (2,1), (2,-1) , (-2,1), (-2,-1)?

Doing it this way seems error prone and tedious:

``````foo(1,2).
foo(1,-2).
foo(-1,-2).
...
...
...
``````

And this way seems too expensive:

``````foo(X,Y) :-
L = [1,-1,2,-2],
member(X,L),
member(Y,L),
abs(X,X1), abs(Y,Y1),
X1 =\= Y1.
``````
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This might need a bit of clarification. :P –  Noldorin Oct 6 '09 at 13:34
I see an octagon! Flee! –  Matt Ball Oct 6 '09 at 13:37
Added example ^^^ –  Ramin Oct 6 '09 at 13:37
I was about to suggest something similar to your second "expensive" case... maybe you could use the second case once to add the "unrolled" predicates to the knowledge base? –  fortran Oct 6 '09 at 13:42
by using findall(..,foo,..) ? –  Ramin Oct 6 '09 at 13:44

A further development on what was commented:

``````generate_pairs_foo(X,Y) :-
L = [1,-1,2,-2],
member(X,L),
member(Y,L),
abs(X,X1), abs(Y,Y1),
X1 =\= Y1.

assert_all_foo([]).

assert_all_foo([(X,Y)|T]) :-
assert(foo(X,Y)), assert_all_foo(T).

find_all((X,Y),generate_pairs_foo(X,Y),L), assert_all_foo(L).
``````

Hmmmmmm... look, it's easier and shorter to just write all the cases xD

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I really think the other's answers are clearer... maybe you should accept one of them (unless you're looking for a solution to bigger and more general cases that cannot be handled that way). –  fortran Oct 6 '09 at 18:28
``````foo0(X,Y):-
member(X,[1,-1]),
member(Y,[2,-2]).

foo(X,Y):-
foo0(X,Y);
foo0(Y,X).
``````
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I'll upvote if you put the ; on a line of its own. –  starblue Oct 7 '09 at 18:22
``````foo(1, 2).
foo(2, 1).
foo(X, Y) :-
foo(-X, Y).
foo(X, Y) :-
foo(X, -Y).
``````
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`foo/2` always fails, also `foo(X,Y)` –  false Oct 7 '12 at 15:32