Subsets in Prolog

I'm looking for a predicate that works as this:

``````?- subset([1,2,3], X).
X = [] ;
X = [1] ;
X = [2] ;
X = [3] ;
X = [1, 2] ;
X = [1, 2, 3] ;
X = [2, 3] ;
...
``````

I've seen some `subset` implementations, but they all work when you want to check if one list is a subset of the another, not when you want to generate the subsets. Any ideas?

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You should switch the arguments in the subset(X, Y) predicate so that we naturally read X is a subset of Y, not like you did: Y is a subset of X. – Dávid Tóth Mar 1 '14 at 10:39

Here goes an implementation:

``````subset([], []).
subset([E|Tail], [E|NTail]):-
subset(Tail, NTail).
subset([_|Tail], NTail):-
subset(Tail, NTail).
``````

It will generate all the subsets, though not in the order shown on your example.

As per commenter request here goes an explanation:

The first clause is the base case. It states that the empty list is a subset of the empty list.

The second and third clauses deal with recursion. The second clause states that if two lists have the same Head and the tail of the right list is a subset of the tail of the left list, then the right list is a subset of the left list.

The third clause states that if we skip the head of the left list, and the right list is a subset of the tail of the left list, then the right list is a subset of the left list.

The procedure shown above generates ordered sets. For unordered sets you might use `permutation/3`:

``````unordered_subset(Set, SubSet):-
length(Set, LSet),
between(0,LSet, LSubSet),
length(NSubSet, LSubSet),
permutation(SubSet, NSubSet),
subset(Set, NSubSet).
``````
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Could you explain the third rule? I don't quite understand it's purpose. – Jordan Scales Aug 13 '12 at 18:29
@JordanScales: just added an explanation of the three clauses... – gusbro Aug 13 '12 at 19:21
This only works with sorted sets I take it? `subset([2,1], [1,2,3]).` says no. – Jordan Scales Aug 14 '12 at 1:57
@JordanScales: Your example is switching arguments, it should read `subset([1,2,3],[2,1])` which indeed will answer false as the procedure generates ordered subsets. You might use `unordered_subset/3` (added to the answer) instead. – gusbro Aug 14 '12 at 16:39

On http://www.probp.com/publib/listut.html you will find an implementation of a predicate called `subseq0` that does what you want to:

``````subseq0(List, List).
subseq0(List, Rest) :-
subseq1(List, Rest).

subseq1([_|Tail], Rest) :-
subseq0(Tail, Rest).
subseq1(Tail, Rest).
``````

A short explanation: `subseq0(X, Y)` checks whether Y is a subset subsequence of X, while `subseq1(X, Y)` checks whether Y is a proper subset subsequence of X.

Since the default representation of a set is a list with unique elements, you can use it to get all subsets as in the following example:

``````?- subseq0([1,2,3], X).
X = [1, 2, 3] ;
X = [2, 3] ;
X = [3] ;
X = [] ;
X = [2] ;
X = [1, 3] ;
X = [1] ;
X = [1, 2] ;
false.
``````
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This generates subsequences, not subsets. That's the same when working with sorted lists of unique elements, though. – Fred Foo Feb 6 '11 at 13:50
You are basically right (corrected it). But why do you require the list to be sorted? – Nubok Feb 6 '11 at 14:01
you're right, it will also work when the list is not sorted, just `uniq`'d. But the easiest way to get unique elements is through `sort/2` :) – Fred Foo Feb 7 '11 at 14:50

Set is a collection of distinct objects by definition. A subset procedure shouldn't care about the order of elements in the set(in the arguments). A proper solution(swi prolog) may look like:

``````subset(_, []).
subset([X|L], [A|NTail]):-
member(A,[X|L]),
subset(L, NTail),
not(member(A, NTail)).
``````

For the question ?- subset([1,2,3], E) it will generate:

``````E = [] ;
E = [1] ;
E = [1, 2] ;
E = [1, 2, 3] ;
E = [1, 3] ;
E = [2] ;
E = [2, 3] ;
E = [3] ;
E = [3, 2] ;
false.
``````

Hope it will help!

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`subset([A,B],[C,D]).` fails. It should succeed. – false Jan 1 at 19:09
``````append([],L,L).

append([H|T],L,[H|L1]):-append(T,L,L1).

subset([X|T],[X|L]) :-subset(T,L).

subset([X|T],[G|L]) :-subset([X],L),append(L2,[X|L3],[G|L]),append(L2,L3,L4),subset(T,L4).

subset([],_).

----------------------------------------------
?- subset([1,2],[1,2]).

yes

?- subset([1,2],[2,1]).

yes

?- subset([1,1],[1,2]).

no

?- subset(D,[1,2]).

D = [1,2] ;

D = [1] ;

D = [2,1] ;

D = [2] ;

D = '[]' ;

no
``````
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