Typing should disallow self application, it should not be possible to find a type for `(t t)`

. If it where possible then `t`

would have a type `A -> B`

, and we would have `A = A -> B`

. Since self application is part of Y combinator, its also not possible to give a type to it.

Unfortunately many Prolog systems allow a solution for `A = A -> B`

. This happens on many grounds, either the Prolog system allows circular terms, then the unification will succeed and the resulting bindings can even further be processed. Or the Prolog system does not allow circular terms, then it depends on whether it implements an occurs check. If the occurs check is on, then unification will not succeed. If the occurs check is off, then the unification might succeed but the resulting bindings can not further be processed, most likely leading to stack overflow in printing or further unifications.

So I guess a circular unification of this type happens in the given code by the used Prolog system and it gets unnoticed.

One way to solve the issue would be to either switch on the occurs check or to replace any of the occuring unifications in the code by an explicit call to unify_with_occurs_check/2.

Best Regards

P.S.: The following Prolog code works better:

```
/**
* Simple type inference for lambda expression.
*
* Lambda expressions have the following syntax:
* apply(A,B): The application.
* [X]>>A: The abstraction.
* X: A variable.
*
* Type expressions have the following syntax:
* A>B: Function domain
*
* To be on the save side, we use some unify_with_occurs_check/2.
*/
find(X,[Y-S|_],S) :- X==Y, !.
find(X,[_|C],S) :- find(X,C,S).
typed(C,X,T) :- var(X), !, find(X,C,S),
unify_with_occurs_check(S,T).
typed(C,[X]>>A,S>T) :- typed([X-S|C],A,T).
typed(C,apply(A,B),R) :- typed(C,A,S>R), typed(C,B,T),
unify_with_occurs_check(S,T).
```

Here are some sample runs:

```
Jekejeke Prolog, Development Environment 0.8.7
(c) 1985-2011, XLOG Technologies GmbH, Switzerland
?- typed([F-A,G-B],apply(F,G),C).
A = B > C
?- typed([F-A],apply(F,F),B).
No
?- typed([],[X]>>([Y]>>apply(Y,X)),T).
T = _T > ((_T > _Q) > _Q)
```