# Prolog: How to make three lists the same length (by adding leading zeros)

I am writing a Prolog program to solve a problem. The problem takes three lists as input:

``````  solve( [L|Lr] , [R|Rr] , [S|Sr] ) :-
``````

Unfortunately the lists all need to be equal length for the program to work.

So these work:

``````?- solve( [A, B, C, D] , [1, 3, 5, 6], [E, F, G, H]).
?- solve( [1] , [2], [3]).
``````

But these do not:

``````?- solve( [A, B, C, D], [1], [B, I, T] ).
?- solve( [A], [1, 2], [4, 5]).
``````

What I would like to do is write a predicate(?) to pad the smaller lists with leading zeros. So:

``````solve( [A, B, C, D], [1], [B, I, T] )
``````

would become:

``````solve( [A, B, C, D], [0, 0, 0, 1], [0, B, I, T] )
``````

Any points on how to accomplish this would be awesome. I am from a functional background so I am struggling. Is there a way tell the length of a list? I think I could do that recursively, but it seems like a pain.

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The length(List, Length) predicate is used to get the length of a list. I did a small program that put the leading zeros into a list.

``````addZeros(L, 0, L).
addZeros(L, N, [0|FL]) :-
N2 is N - 1,

compZeros(_, 0, []).
compZeros(L, N, FL) :-
length(L, S),
S < N,
N2 is N - S,
compZeros(L, _, L).
``````

Just pass the list and the size of the final list.

``````?- compZeros([1], 4, L).
L = [0, 0, 0, 1]

?- compZeros([1, 2, 3], 4, L).
L = [0, 1, 2, 3]

?- compZeros([1, 2, 3, 4], 4, L).
L = [1, 2, 3, 4].
``````
-
Brilliant, thanks ed, I was having a hard time conceptualizing that. However I think that your second base case for add zeros is redundant. – sixtyfootersdude Jun 6 '10 at 11:47

Yet another variant with using only unification.

``````padZerosPrep(L, [], L).

padZerosWalk([], [], La, Lb, La, Lb).
padZerosWalk([], [_|_], La, Lb, La, Lb).
padZerosWalk([_|_], [], La, Lb, La, Lb).
padZerosWalk([_|La0], [_|Lb0], [_|La1], [_|Lb1], La, Lb):-
padZerosWalk(La0, Lb0, La1, Lb1, La, Lb).

padZeros(La0, Lb0, La, Lb):-
padZerosWalk(La0, Lb0, La1, Lb1, La, Lb).
``````

Just pass two lists and remember that second pair of list will have the same length:

``````?- padZeros([1,2,3],[4,5,6],A,B).
A = [1, 2, 3],
B = [4, 5, 6]

A = [1, 2, 3],
B = [0, 4, 5]

A = [0, 2, 3],
B = [4, 5, 6]

?- La=[A,B,C,D], Lb = [1], Lc=[B,I,T], padZeros(La, Lb, La1, Lb1), padZeros(La1, Lc, La2, Lc2), padZeros(Lb1, Lc, Lb2, Lc2).
La = [A, B, C, D],
Lb = [1],
Lc = [B, I, T],
La1 = [A, B, C, D],
Lb1 = [0, 0, 0, 1],
La2 = [A, B, C, D],
Lc2 = [0, B, I, T],
Lb2 = [0, 0, 0, 1]

?- Lc=[A,B,C,D], Lb = [1], La=[B,I,T], padZeros(La, Lb, La1, Lb1), padZeros(La1, Lc, La2, Lc2), padZeros(Lb1, Lc, Lb2, Lc2).
Lc = [A, B, C, D],
Lb = [1],
La = [B, I, T],
La1 = [B, I, T],
Lb1 = [0, 0, 1],
La2 = [0, B, I, T],
Lc2 = [A, B, C, D],
Lb2 = [0, 0, 0, 1]
``````

P.S. Don't try those predicates in reverse variant.
Same variant in Haskell:

``````padZeros :: (Num a, Num b) => [a] -> [b] -> ([a], [b])
padZeros a b = walk (zip a b) pa pb where
pa = map (const 0) b ++ a
pb = map (const 0) a ++ b
walk [] a' b' = (a', b')
walk (_:xs) (_:a') (_:b') = walk xs a' b'
``````
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