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So I would call myself a fairly novice programmer as I focused mostly on hardware in my schooling and not a lot of Computer Science courses.

So I solved Problem 7 of Project Euler:

By listing the first six prime numbers: 2, 3, 5, 7, 11, and 13, we can see that the 6th prime is 13.

What is the 10001st prime number?

I managed to solve this without problem in Java, but when I ran my solution it took 8 and change seconds to run. I was wondering how this could be optimized from a programming standpoint, not a mathematical standpoint.

Is the array looping and while statements the main things eating up processing time? And how could this be optimized? Again not looking for a fancy mathematical equation..there are plenty of those in the solution thread.

SPOILER My solution is listed below.

public class PrimeNumberList {

private ArrayList<BigInteger> primesList = new ArrayList<BigInteger>();

public void fillList(int numberOfPrimes) {
    primesList.add(new BigInteger("2"));
    primesList.add(new BigInteger("3"));
    while (primesList.size() < numberOfPrimes){

private void getNextPrime() {
    BigInteger lastPrime = primesList.get(primesList.size()-1);
    BigInteger currentTestNumber = lastPrime;
    BigInteger modulusResult;
    boolean prime = false;
        prime = true;
        currentTestNumber = currentTestNumber.add(new BigInteger("2"));
        for (BigInteger bi : primesList){
            modulusResult = currentTestNumber.mod(bi);
            if (modulusResult.equals(BigInteger.ZERO)){
                prime = false;

public BigInteger get(int primeTerm) {
    return primesList.get(primeTerm - 1);


share|improve this question
Where does a Java profiler say the time is spent? – Thorbjørn Ravn Andersen Apr 19 '10 at 16:00
I have not run a profiler. I have had very limited use in Java debugging/profiling. Do you have a suggestion for a good java profiler that I could quickly use to answer this question? I am using Eclipse Galileo as my IDE. – bmucklow Apr 19 '10 at 16:46
I don't quite understand your insistence on optimizations "from a programming standpoint, not a mathematical standpoint". Using this or that class for representing integers is not as important as using the right algorithm (in that case: sieve of Eratosthenes, so no big fancy equations). Optimize the algorithm first and only then do some micro-optimizations. – Krystian Apr 19 '10 at 19:41
@Krystian the insistence is because I know I am not a strong mathematician etc...but I am trying to be a better programmer, so besides choosing the correct algorithm (which would be the solution you listed) I was trying to figure out what kind of things I did in my program that ate up cycles so I could avoid them for future unrelated problems. I agree that the best solution is to get the correct algorithm, but that was not the point of this question. I want to improve my coding habits so that everything I do is faster. I learned that BigInteger eats a lot of processing. – bmucklow Apr 19 '10 at 19:46
OK, I get it now, then it's a valid point of view. Just wanted to make sure that the algorithmic part is not neglected ;) – Krystian Apr 19 '10 at 20:31
up vote 13 down vote accepted

Since the 10001st prime number is not that big, you could start by using long instead of BigInteger. A BigInteger instance is a full-fledged Java Object and there is a lot of overhead in creating and manipulating them.

share|improve this answer
Why use a long, when an int is enough? – jarnbjo Apr 19 '10 at 15:46
I was not sure how big the 10001st prime was going to be until I ran my test. – bmucklow Apr 19 '10 at 15:53
There's really not a lot of overhead in creating a BigInteger. Besides that, he's caching the prime ones for later use, so only the new number under test is being created each time through the while loop. Besides that, there will be later problems in ProjectEuler where int and even long won't be big enough. :) – Bill the Lizard Apr 19 '10 at 15:54
Actually, I stand corrected on part of that last comment. He is creating an extra BigInteger each time he adds 2 in the while loop. But that's still outside the for loop, where most of the time should be spent. – Bill the Lizard Apr 19 '10 at 16:16
Changing to int reduced it from 8+change to 2+change seconds. However I didn't know at the time that I would only need an int. I am seeing if my original solution can make one static creation of "2" to save any time. Still looking for other answers to optimize the program (not fancy math equations) – bmucklow Apr 19 '10 at 16:37

You can benchmark it for yourself, but I'd guess that the for (BigInteger bi : primesList) loop is where you're spending most of your time. You're looping through the entire list of primes. You can break out of that loop as soon as you reach a prime candidate divisor that's greater than the square root of the number you're testing for primality.

Another (very slight by comparison) improvement will be in caching new BigInteger("2") and reusing it instead of creating a new BigInteger with the same value each time through your while loop. <-- Still a good practice, but it's less significant than rounding error in this case.

share|improve this answer
That is a good suggestion. I will add it and see how much time this gains me. – bmucklow Apr 19 '10 at 15:53
I added the caching that you mentioned. It added no time back. Also I am working on adding the sqrt check, but it is causing me to go into infinite loops for some I am looking at my logic. – bmucklow Apr 19 '10 at 16:45
@bmucklow: I just did a quick test, and it only took an extra 200 milliseconds to create 1,000,000 BigInteger objects on my machine, so creating 10,000 of them will just look like your rounding error. Sorry about that, my 2nd suggestion was just noise. – Bill the Lizard Apr 19 '10 at 16:53
+1 for the square root bound, that's where the big gain lies. Note that for integers comparing the square to the bound is somewhat faster and more robust than to compute a square root bound. – starblue Apr 19 '10 at 19:30
+1. I've used the square root optimization before. It is cheap and effective. – Steve Wortham Apr 19 '10 at 19:32

Also try the Sieve of Erathostenes with the primes represented by a BitSet, it is much faster than testing candidates separately.

share|improve this answer
+1: This is a much cleaner and elegant solution. the algorithm may be ancient, but it does work spectacularly well. – gpampara Apr 20 '10 at 5:44

Use ints. Use a fixed size array for your primesList, so that you don't have to pay for allocation of memory (or make the start size big enough for your dynamic list to make it a non-issue).

Use a normal for that counts an int instead, with the Count being outside the loop.

share|improve this answer

Since you're looping on while(!prime) in getNextPrime(), it's guaranteed to return a prime, so you could change your loop in fillList without calling size() each time. Probably not much of a gain, but it kinda doesn't make sense to calculate the size each time when you know it's being incremented by 1.

Also, you could try with a LinkedList instead of an ArrayList. In this particular use case, it could actually be faster.

share|improve this answer
I changed this to a for loop beginning with initial list size. I did not see any noticeable time gain, but a valid point about calling functions that I do not need to. Thanks. – bmucklow Apr 19 '10 at 16:59

You are better off using an int/long, and just run through loops to check if a number is prime. To optimize and accelerate your program, you could reduce iterations in the for loop by setting the limit to Math.sqrt(num).

Reference :

share|improve this answer

I notice your code tests all candidates for divisibility by two. But your prime candidates are never even. So you can skip this first test. It's a small thing, but you'll save 9999 mods.

share|improve this answer
How can I change "(BigInteger bi : primesList)" to be a for loop that ignores the first element? That element being the '2' you speak of? I'm not sure how to code this in Java. Is there a "(BigInteger bi : <some kind of range? Starting point> in primesList)" – bmucklow Apr 19 '10 at 16:44
I would just avoid putting it in the list at all. You don't need it. Then change the comparison to .size() + 1. – Craig Stuntz Apr 19 '10 at 17:07
This did not appear to add any time back to the test. Using int's instead of BigInteger and only adding 3 to my 'preloaded' primeslist and changing comparator to start at size+1 and adding 'get' to be primeTerm -2 instead of primeTerm -1 did not appear to be very significant. Thanks. – bmucklow Apr 19 '10 at 17:47

Here is a .NET solution... My tests indicated that I received the 10001st prime in 132ms, and 100,000 prime in 4417ms.

public static IEnumerable<long> GetPrimes(int numberPrimes)
  List<long> primes = new List<long> { 1, 2, 3 };
  long startTest = 3;

  while (primes.Count() < numberPrimes)
    startTest += 2;
    bool prime = true;
    for (int pos = 2; pos < primes.Count() && primes[pos] < Math.Sqrt(startTest); pos++)
      if (startTest % primes[pos] == 0)
        prime = false;
    if (prime)
  return primes;
share|improve this answer
I'd like to correct you on one thing - the number 1 is not prime. – Rubys May 2 '10 at 18:09

I simply translated the Sieve of Eratosthenes into Java. It's supposed to be one of the most efficient ways of solving for primes algorithmically.

public static void main(String[] args){

    ArrayList<Integer> List = new ArrayList<Integer>();
    ArrayList<Integer> Primes = new ArrayList<Integer>();
    Integer p=2;
    Integer n=105000; 
    Integer i=1;

    while(p < n) {


        while((p*i)<=n) {

        while (p < n) {
            if(List.contains(p)){                     }
            else                {Primes.add(p); break;}


    System.out.println("PRIME 10,001 is.... " + Primes.get(10000));
    // 104743

share|improve this answer

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