I have a tight loop that searches coprimes. A list primeFactors. Its n-th element contains a sorted list of prime decomposition of n. I am checking if c and d are coprimes using checkIfPrimes

boolean checkIfPrimes(int c, int d, List<List<Integer>> primeFactors) {
    List<Integer>  common = new ArrayList<>(primeFactors.get(d)); //slow
    return (common.isEmpty());

primeFactors.get(d).retainAll(primeFactors.get(c)) looks promising, but it will alter my reusable primeFactors object.

Creating a new object is relatively slow. Is there a way to speed up this step? Can I somehow utilize the fact that lists are sorted? Should I use arrays instead?


Set operations should be faster than array operations. Just for kicks, consider trying this and compare the performance against the stream performance:

final Set<Integer> commonSet;
final Set<Integer> cSet = new HashSet<Integer>();
final Set<Integer> dSet = new HashSet<Integer>();


commonSet = dSet.retainAll(cSet);

return (commonSet.isEmpty());

Also, consider using List<Set<Integer>> primeFactors instead of List<List<Integer>> primeFactors since I suspect that you don't really have a list of prime factors but actually have a set of prime factors.

  • If you store list of sets, dont create the new sets, just use those sets. – DwB Jul 10 '16 at 3:10

You could use a Collection with faster lookup - e.g. a Set if you only need the prime factors without repetitions, or a Map if you also need the count of each factor.

Basically, you want to know whether the intersection of two Sets is empty. Oracle Set tutorial shows a way to calculate the intersecton (similar to what you already mentioned, using retainAll on a copy, but on Sets the operation should be more efficient).


Since your lists are relatively small, and this operation is executed very often, you should avoid creating any new Lists or Sets, because it might lead to a significant GC pressure.

The scan linear algorithm is

public static boolean emptyIntersection(List<Integer> sortedA, List<Integer> sortedB) {
    if (sortedA.isEmpty() || sortedB.isEmpty())
        return true;
    int sizeA = sortedA.size(), sizeB = sortedB.size();
    int indexA = 0, indexB = 0;
    int elementA = sortedA.get(indexA), elementB = sortedB.get(indexB);
    while (true) {
        if (elementA == elementB) {
            return false;
        } else if (elementA < elementB) {
            if (indexA == sizeA)
                return true;
            elementA = sortedA.get(indexA);
        } else {
            // elementB < elementA
            if (indexB == sizeB)
                return true;
            elementB = sortedB.get(indexB);

Also consider using lists of primitive ints instead of boxed integers, e. g. from fastutil library.


Normally you can use a boolean array. Where the index of the array is the number and the value of the boolean returns true when it is a prim otherwise false.

  • This array holds decomposition of first 10M numbers. A 10M x 3K ~30 G array sounds like a stretch. realistically, I would need 10M x 10M if I don't want to compute the largest primes. – sixtytrees Jul 8 '16 at 18:06
  • Okay that I have not known. Eventually you can use a HashSet for the primes? – Kevin Wallis Jul 8 '16 at 18:09

You could do something along the lines of:

List<Integer> commonElements = 

Once you measure this performance, you can substitute 'parallelStream()' for 'stream()' above and see what benefits you derive.

  • parallelStream() is for really long streams or for really expensive tasks to compute on each element, not for list of factors and filtering them by list::constains – leventov Jul 9 '16 at 5:16

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