I found this nice snippet for parsing lisp in Prolog (from here):

```
ws --> [W], { code_type(W, space) }, ws.
ws --> [].
parse(String, Expr) :- phrase(expressions(Expr), String).
expressions([E|Es]) -->
ws, expression(E), ws,
!, % single solution: longest input match
expressions(Es).
expressions([]) --> [].
% A number N is represented as n(N), a symbol S as s(S).
expression(s(A)) --> symbol(Cs), { atom_codes(A, Cs) }.
expression(n(N)) --> number(Cs), { number_codes(N, Cs) }.
expression(List) --> "(", expressions(List), ")".
expression([s(quote),Q]) --> "'", expression(Q).
number([D|Ds]) --> digit(D), number(Ds).
number([D]) --> digit(D).
digit(D) --> [D], { code_type(D, digit) }.
symbol([A|As]) -->
[A],
{ memberchk(A, "+/-*><=") ; code_type(A, alpha) },
symbolr(As).
symbolr([A|As]) -->
[A],
{ memberchk(A, "+/-*><=") ; code_type(A, alnum) },
symbolr(As).
symbolr([]) --> [].
```

However expressions uses a cut. I'm assuming this is for efficiency. Is it possible to write this code so that it works efficiently without cut?

Would also be in interested answers that involve Mercury's soft-cut / committed choice.