I'm trying to model a set of cog wheels in Prolog. And to query to find if two wheels are connected by a chain of others.

I have a simple recursion :

```
connected(X,Y) :-
engages(X,Y).
connected(X,Y) :-
engages(X,Z),
connected(Z,Y).
```

If I define engages in terms of a hard-wired predicate :

```
engages(X,Y) :- touches(X,Y).
```

and

```
touches(z1,z2).
touches(z2,z3).
touches(z3,z4).
```

Then this works.

A test of

```
connected(z1,z4).
```

produces true and

```
connected(z1,z5).
```

produces false.

However, if I replace my touches predicate with a calculation (that the sum of the two radii is roughly the distance between the two centres), then this search goes into what looks like an infinite recursion (stack overflow) when the answer should be false.

Why should this be, given that my "touches" calculation doesn't itself call the "connected" functor? Is it because a touches functor is going to try to match more atoms than the explicit predicates?

This, roughly, is my calculated touches (A and B are the wheels, ARAD and BRAD are their radii, D is distance and approx is an "approximately equals" function.

```
touches(A,B) :-
wheel(A,_,_,ARAD),
wheel(B,_,_,BRAD),
distance(A,B,D),
approx(D,(ARAD+BRAD),2),
A \== B.
```