# prolog all binary numbers

i need a predicate that will produce all the binary number of N digits .

For instance the predicate binary(2,L)

will return `L = [[0, 0], [0, 1], [1, 0], [1, 1]]`.

please do not use findall ....

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what i tried is not correct because i don't know how to produce the binary numbers –  user1118501 Jan 9 '12 at 0:11
is this homework? –  salva Jan 9 '12 at 8:47
yes it is homework and i need a solution so that i can see how it can be solved so that i am prepared for the final exam –  user1118501 Jan 9 '12 at 11:59

If you need to avoid `findall/3`, then you need an aggregator to collect the binary numbers:

``````binary(N, L) :-
collect_binaries(N, [], L).
``````

You then generate one binary at a time and check whether it's already present in the aggregated list:

``````collect_binaries(N, R, L) :-
length(B, N),
make_binary(B), % make binary of length N
\+ memberchk(B, R),
!,
collect_binaries(N, [B|R], L).
``````

If generating another binary fails, you are done:

``````collect_binaries(_, L, L).
``````

Generating binaries is simple (I'm using the format you gave in your question: a list of 0/1 values). You iterate over all positions in the list and use either 1 or 0:

``````make_binary([]).
make_binary([H|T]) :-
member(H, [1,0]),
make_binary(T).
``````

Result:

``````?- binary(2, L).
L = [[0, 0], [0, 1], [1, 0], [1, 1]]
Yes (0.00s cpu)
``````
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Once you have a list representing all the numbers with N bits, generating all the numbers of N+1 bits is just a matter of unfolding every N-number `[a,b,c,...]` into two N+1-numbers: `[0,a,b,c,...]` and `[1,a,b,c,...]`.

Update:

``````unfold([], []).
unfold([H|T], [[0|H], [1|H]|L]) :-
unfold(T, L).

bn(N, L) :-
(   N = 0
->  L = [[]]
;   N1 is N - 1,
bn(N1, L1),
unfold(L1, L) ).
``````
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