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there are n arrays a_0, ..., a_n-1, each of l elements. how to write efficient code to iterate all combinations, in which each element is picked from a distinct array. for example, if two arrays are [0, 1] and [3, 4], then the output should be

[0, 3]
[0, 4]
[1, 3]
[1, 4]
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Is this homework? What have you tried so far? –  templatetypedef Jul 21 '11 at 21:05
So do the values always hold their index position? That is, in the above example, the following are not possible combinations: [0,1], [3,1], [4,3], etc.? –  Jonathan M Jul 21 '11 at 21:06
@Janathan M [0,1], is not a elegible combination, since element 0 and 1 are both from array 0... –  Richard Jul 21 '11 at 21:17
@Richard: ...and [3,0] is not eligible either because 3 comes from the 2nd array, and 0 from the first, right? –  Jonathan M Jul 21 '11 at 21:20
@Janathan it's eligible and that's what is wanted, the elements from different arrays. –  Richard Jul 21 '11 at 21:23

2 Answers 2

up vote 1 down vote accepted

You cannot do better than O(l^n), as nightcracker correctly points out. Here's one way that you can approach the problem.

Make a large array A whose ith entry is the array a_i, i.e.

A[i] = a_i

Now iterate through all words of length n on the alphabet {0,1,...,l}:

-(array*)nextWord:(array*)word {
    array *newWord = word;
    for (int i=n-1; i=>0; ++i) {
        if (word[i] < l) {
            newWord[i] = word[i]+1;
            for (int j=i+1; j<n; ++j) {
                newWord[i] = 0;
            return newWord;
    return NULL;

Finally, select the entries based on the word by

word = [0, 0, ... , 0];
while (word != NULL) {
    A[0][word[0]], A[1][word[1]], ... , A[n-1][word[n-1]];
    word = nextWord(word);

Sorry for the inconsistencies in the pseudocode, but hopefully you can discern the logic here.

Incidentally, based on the example in the question, I am assuming that the first entry should come from the first array, the second entry from the second array, and so on. If this is not the case, then you can still use the idea above and then permute the entries. However, doing this may lead to repetitions if and only if two of the arrays have a common entry.

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In an ideal mathematical environment there is no better algorithm then O(l^n), you are going to produce an output of l^n elements anyway.

If you give us context like programming language or architecture we can think of the algorithm closest to O(l^n).

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actuly it is l^n –  Yochai Timmer Jul 21 '11 at 21:07
@Yochai Timmer: Woops, you are right. –  orlp Jul 21 '11 at 21:07
puesudo code only,,, actually I thought about using stack to iterate, but still working on it... –  Richard Jul 21 '11 at 21:18

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