# Prolog: Getting unique atoms from propositional formulas

I can easily write a predicate to get unique elements from a given list in Prolog e.g.

``````no_doubles( [], [] ).
no_doubles( [H|T], F ) :-
member( H, T ),
no_doubles( T, F ).
no_doubles( [H|T], [H|F] ) :-
\+ member( H, T ),
no_doubles( T, F ).
``````

However, how can you do the same thing but for something other than a normal list i.e. not something like [a,b,c...]? So in my case, I want to extract unique atoms for a propositional formula e.g. unique_atoms(and(x,and(x,y),z),[x,y,z]). is satisfied. Do you use recursion just like in my no_doubles example but for a formula like this?

Any ideas are welcomed :). Thanks.

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``````?- setof(X, member(X,[a,b,c,a,b,c]), L).
L = [a, b, c].

?- sort([a,b,c,a,b,c], L).
L = [a, b, c].
``````

Propositional formulas:

``````get_atoms(X,[X]) :-
atom(X).
get_atoms(and(P,Q),Atoms) :-
get_atoms(P,Left),
get_atoms(Q,Right),
append(Left,Right,Atoms).
``````

etc. Optimize using difference lists if necessary.

``````unique_atoms(P,UniqueAtoms) :- get_atoms(P,Atoms), sort(Atoms,UniqueAtoms).
``````

A more direct way is to use sets.

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Thanks larsmans, your get_atoms predicate gave me a rough idea of what I should be doing and I've solved my problem now so thank you :). I will also look into the sets link you posted thanks. –  ale Oct 17 '10 at 13:57

So you need to process a general term (i.e. a tree structure) and get a list of its atomic leaf nodes, without duplicates. Does the result list have to have a specific order (e.g. depth-first left-to-right), or is this not important?

If you have an option to use variables instead of atoms in your formulas then you can use the (SWI-Prolog) builtin `term_variables/2`, e.g.

``````?- term_variables(and(X, and(X, Y), Z), Vars).
Vars = [X, Y, Z].
``````

Otherwise you have to go with a solution similar to:

``````term_atoms(Term, AtomSet) :-
term_to_atomlist(Term, AtomList),
list_to_set(AtomList, AtomSet).

term_to_atomlist(Atom, [Atom]) :-
atom(Atom),
!.

term_to_atomlist(Term, AtomList) :-
compound(Term),
Term =.. [_ | SubTerms],
terms_to_atomlist(SubTerms, AtomList).

terms_to_atomlist([], []).

terms_to_atomlist([Term | Terms], AtomList) :-
term_to_atomlist(Term, AtomList1),
terms_to_atomlist(Terms, AtomList2),
append(AtomList1, AtomList2, AtomList).
``````

Usage example:

``````?- term_atoms(f(x^a1+a3*a3/a4)='P'-l, Atoms).
Atoms = [x, a1, a3, a4, 'P', l].
``````

You might want to extend it to deal with numbers and variables in the leaf nodes.

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