# Prolog Beginner: How to unify with arithmentic comparison operators or how to get a set var to range of values

I am new to prolog. I need to write an integer adder that will add numbers between 0-9 to other numbers 0-9 and produce a solution 0-18. This is what I want to do:

``````% sudo code
add(in1, in2, out) :-
in1 < 10,
in2 < 10,
out < 18.
``````

I would like to be able to call it like this:

To Check if it is a valid addition:

``````?- add(1,2,3).
true
false
``````

With one missing variable:

``````?- add(X,2,3).
1
5
``````

With multiple missing variables:

``````?-add(X,Y,Z).
% Some output that would make sense.  Some examples could be:
X=1, Y=1, Z=2 ;
X=2, Y=1, Z=3 ......
``````

I realize that this is probably a pretty simplistic question and it is probably very straightforward. However cording to the prolog tutorial I am using:

"Unlike unification Arithmetic Comparison Operators operators cannot be used to give values to a variable. The can only be evaluated when every term on each side have been instantiated."

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Solution:

``````lessThanTen(9).
lessThanTen(8).
lessThanTen(7).
lessThanTen(6).
lessThanTen(5).
lessThanTen(4).
lessThanTen(3).
lessThanTen(2).
lessThanTen(1).
lessThanTen(0).

``````
-

``````add(X,Y,Z) :-
Z is X + Y,
X < 10,
Y < 10,
Z < 19.
``````

Problem: this works nicely for queries of the form `add(1,1,X)` because `Z`'s instantiated before the `<` calls, but fails when you ask `add(X,1,2)`. You could use `var/1` to distinguish the kind of query (`var/1` tells you whether a variable's uninstantiated or not), but that sounds like a lot of pain.

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 Yeah that doesn't work because what you described in your answer. – sixtyfootersdude Jun 5 '10 at 20:35

All modern Prolog systems provide finite domain constraints, which are true relations that can (in contrast to more low-level arithmetic predicates like is/2 and >/2) be used in all directions. In SWI-Prolog:

``````:- use_module(library(clpfd)).

plus(X, Y, Z) :-
[X,Y] ins 0..9,
X + Y #= Z.
``````

Results for your examples:

``````?- plus(1,2,3).
true.

?- plus(1,2,4).
false.

?- plus(X,2,3).
X = 1.

?- plus(1,4,X).
X = 5.

?- plus(X,Y,Z).
X in 0..9,
X+Y#=Z,
Y in 0..9,
Z in 0..18.
``````

Since the predicate can be used in all directions, it does no longer make sense to call it "add/3", as that would imply a direction, but the predicate truly describes when the relation holds and is thus more general.

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