# how to run suspended goals in prolog with constraints

I am trying to solve a specific problem using prologs constraint solvers, and I'm stuck :D A more general version of my problem requirement is the like this:

``````:- lib(ic).:- lib(ic).
solve( [A1*X+B1*Y=C1, A2*X+B2*Y=C2] ):-
X::[0..999],
Y::[0..999],
X #\= 0,
Y #\= 0,

A1*X+B1*Y#=C1, % line1
A2*X+B2*Y#=C2. % line2
``````

And this is the query/goal I use:

``````solve( [2*X+3*Y=5, 3*X+2*Y=5] ).
``````

And the program will compute the values of X and Y (in this case X=1, Y=1 is the solution). What I am thinking is, what if the number of arguments in the goal/query can vary..in this case, my prolog program needs to have a dynamic suspended goals in place of lines commented with %line1 and %line2..

Question is, how do i make these expressions delayed..? I do not want to hard code these in the problem and think that only two expressions will be passed over through the goal..

Hope the question is clear. Thanks.

-

I think you mean something like:

``````:- lib(ic).

solve([]).
solve([Eq | Eqs]) :-
term_variables(Eq, Vars),
Vars :: [0..999],
( foreach(Var, Vars) do Var #\= 0 ),
Eq  = (Lhs  = Rhs),
Eq0 = (Lhs #= Rhs),
call(Eq0),
solve(Eqs).
``````

Note that this is ECLiPSe-CLP specific code (the foreach-loop which could be translated to a recursive helper predicate, of course, and the IC library).

Also note that `call(Eq0)` and writing just `Lhs #= Rhs` should have the same effect (afaik). But when the variables in `Lhs #= Rhs` are solver variables, that seems not to the case, at least I encountered such a problem some months ago using `lib(cplex)`.

-
thanks for the snippet. I didnot understand this part of code: Eq0 = (Lhs #=Rhs) How does this work? Please guide me to suitable material available online so that I can read up more on such coding. Thank You. –  kallakafar Feb 11 '12 at 16:32
@kallakafar: if you know that the variable can't have value 0, you can set the domain accordingly `Vars::[1..999]` and drop the `foreach` loop. The line `Eq0 = (Lhs #=Rhs)` means that the variable `Eq0` is bound to the goal `(Lhs #=Rhs)`, but the goal is not executed. It is only executed in the next line `call(Eq0)`. The problem with just writing `Lhs#=Rhs` is that with the ic library, only variables are allowed, not complex terms. In your case, `Lhs` will be a term, so you would need to wrap it in `eval/1`: `eval(Lhs)#=Rhs`. –  twinterer Feb 13 '12 at 8:01
@kallakafar: the documentation for ECLiPSe can be found online here: eclipseclp.org/doc/userman/umsroot.html and here: eclipseclp.org/doc/libman/libman.html. You should have received both manuals with your ECLiPSe enstallation, though. Then there is Helmut Simonis's e-learning course: 4c.ucc.ie/~hsimonis/ELearning/index.htm and an ECLiPSe tutorial introduction: eclipseclp.org/doc/tutorial/index.html. Finally, consider asking ECLiPSe specific questions on the user mailing list: lists.sourceforge.net/lists/listinfo/eclipse-clp-users –  twinterer Feb 13 '12 at 8:06