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I'm trying to make a decent Java program that generates the primes from 1 to N (mainly for Project Euler problems).

At the moment, my algorithm is as follows:

Initialise an array of booleans (or a bitarray if N is sufficiently large) so they're all false, and an array of ints to store the primes found.

Set an integer, s equal to the lowest prime, (ie 2)

While s is <= sqrt(N)

Set all multiples of s (starting at s^2) to true in the array/bitarray.

Find the next smallest index in the array/bitarray which is false, use that as the new value of s.


Go through the array/bitarray, and for every value that is false, put the corresponding index in the primes array.

Now, I've tried skipping over numbers not of the form 6k + 1 or 6k + 5, but that only gives me a ~2x speed up, whilst I've seen programs run orders of magnitudes faster than mine (albeit with very convoluted code), such as the one here

What can I do to improve?

Edit: Okay, here's my actual code (for N of 1E7):

int l = 10000000, n = 2, sqrt = (int) Math.sqrt(l);
boolean[] nums = new boolean[l + 1];
int[] primes = new int[664579];

while(n <= sqrt){
    for(int i = 2 * n; i <= l; nums[i] = true, i += n);
    for(n++; nums[n]; n++);

for(int i = 2, k = 0; i < nums.length; i++) if(!nums[i]) primes[k++] = i;

Runs in about 350ms on my 2.0GHz machine.

share|improve this question
While java is not the fastest choice here, we might spot performance issues if you post your (complete but compact) code. – Eiko Jun 22 '10 at 15:54
By the way, implementing Sieve of Eratosthenes isn't complex at all :) – Waleed Amjad Jun 22 '10 at 16:23

While s is <= sqrt(N)
One mistake people often do in such algorithms is not precomputing square root.

while (s <= sqrt(N)) {

is much, much slower than

int limit = sqrt(N);
while (s <= limit) {

But generally speaking, Eiko is right in his comment. If you want people to offer low-level optimisations, you have to provide code.

update Ok, now about your code.

You may notice that number of iterations in your code is just little bigger than 'l'. (you may put counter inside first 'for' loop, it will be just 2-3 times bigger) And, obviously, complexity of your solution can't be less then O(l) (you can't have less than 'l' iterations).

What can make real difference is accessing memory effectively. Note that guy who wrote that article tries to reduce storage size not just because he's memory-greedy. Making compact arrays allows you to employ cache better and thus increase speed.

I just replaced boolean[] with int[] and achieved immediate x2 speed gain. (and 8x memory) And I didn't even try to do it efficiently.

That's easy. You just replace every assignment a[i] = true with a[i/32] |= 1 << (i%32) and each read operation a[i] with (a[i/32] & (1 << (i%32))) != 0. And boolean[] a with int[] a, obviously.

From the first replacement it should be clear how it works: if f(i) is true, then there's a bit 1 in an integer number a[i/32], at position i%32 (int in Java has exactly 32 bits, as you know).

You can go further and replace i/32 with i >> 5, i%32 with i&31. You can also precompute all 1 << j for each j between 0 and 31 in array.

But sadly, I don't think in Java you could get close to C in this. Not to mention, that guy uses many other tricky optimizations and I agree that his could would've been worth a lot more if he made comments.

share|improve this answer
sqrt(N) probably uses natural logarithms to calculate the value which will be slower than doing while (ss < N) Or pre compute ss and use that. – Waleed Amjad Jun 22 '10 at 16:12
Nope, I precomputed the square root of N – Rob Jun 22 '10 at 16:20
Yeah you did, but I think you'll be slightly faster doing while(n*n <= l) instead of while(n <= sqrt) – Waleed Amjad Jun 22 '10 at 16:22
Tried it with the above code (for N = 1E7); there was no noticable change in speed – Rob Jun 22 '10 at 16:38
Nikita, could you post the code for this int[]ed version? :D – Rob Jun 22 '10 at 16:52

Using the BitSet will use less memory. The Sieve algorithm is rather trivial, so you can simply "set" the bit positions on the BitSet, and then iterate to determine the primes.

share|improve this answer
It is actually slower with BitSet. Initialization with new BitSet(l+1) takes 2x as long as new boolean[l+1] and the loops are a bit slower than with boolean[] too. I think the slowdown is caused by the overhead from the method calls set(i), get(i) and nextClearBit(i) instead of accessing values from the array. – rudi-moore Jun 22 '10 at 17:44
Notice how I didn't mention speed :P – gpampara Jun 23 '10 at 7:12

Did you also make the array smaller while skipping numbers not of the form 6k+1 and 6k+5? I only tested with ignoring numbers of the form 2k and that gave me ~4x speed up (440 ms -> 120 ms):

int l = 10000000, n = 1, sqrt = (int) Math.sqrt(l);
int m = l/2;
boolean[] nums = new boolean[m + 1];
int[] primes = new int[664579];
int i, k;

while (n <= sqrt) {
  int x = (n<<1)+1;
  for (i = n+x; i <= m; nums[i] = true, i+=x);
  for (n++; nums[n]; n++);

primes[0] = 2;
for (i = 1, k = 1; i < nums.length; i++) {
  if (!nums[i])
    primes[k++] = (i<<1)+1;
share|improve this answer
Interesting... for me it gives <2x speed up (350ms -> 190ms) But this is still good, especially considering it can be combined with other optimisations. Thanks! ^_^ – Rob Jun 22 '10 at 17:38
+1 yep, pretty neat – Nikita Rybak Jun 22 '10 at 17:41

You could do the step of "putting the corresponding index in the primes array" while you are detecting them, taking out a run through the array, but that's about all I can think of right now.

share|improve this answer
I'm not sure this is possible within the code that I posted above. Can you elaborate a bit? – Rob Jun 22 '10 at 16:37
I posted this before your code. So I wouldn't have known. I was just going on your description. – evantravers Jun 22 '10 at 17:13
Yeah, fair enough – Rob Jun 22 '10 at 17:48

The following is from my Project Euler Library...Its a slight Variation of the Sieve of Eratosthenes...I'm not sure, but i think its called the Euler Sieve.

1) It uses a BitSet (so 1/8th the memory) 2) Only uses the bitset for Odd Numbers...(another 1/2th hence 1/16th)

Note: The Inner loop (for multiples) begins at "n*n" rather than "2*n" and also multiples of increment "2*n" are only crossed off....hence the speed up.

private void beginSieve(int mLimit) 
    primeList = new BitSet(mLimit>>1); 

    int sqroot = (int) Math.sqrt(mLimit); 
    for(int num = 3; num <= sqroot; num+=2) 
        if( primeList.get(num >> 1) ) 
            int inc = num << 1;
            for(int factor = num * num; factor < mLimit; factor += inc) 
                //if( ((factor) & 1) == 1) 
                    primeList.clear(factor >> 1); 

and here's the function to check if a number is prime...

public boolean isPrime(int num) 
    if( num < maxLimit)
        if( (num & 1) == 0) 
            return ( num == 2); 
            return primeList.get(num>>1);
    return false;
share|improve this answer

I bet java's performance is terrible when dealing with bits... Algorithmically, the link you point out should be sufficient

share|improve this answer
The problem is I don't have a clue what's happening in the link. – Rob Jun 22 '10 at 15:54
what specifically don't you understand ? – Alexandre C. Jun 22 '10 at 15:57
The source code in the primes_sieve.c link about half way down seems to be almost unreadable <.< – Rob Jun 22 '10 at 16:05
the html page contains useful info though – Alexandre C. Jun 22 '10 at 16:34
Hmm... any idea how one would efficiently implement the stuff it says under the 'choose an appropriate sieve size' subheading. And does Java's VM put stuff into the CPU cache if it so decides, if the 'sequential sieving' uses a sieve small enough to fit in the cache size? – Rob Jun 22 '10 at 16:43

Have you tried googling, e.g. for "java prime numbers". I did and dug up this simple improvement:

Surely, you can find more at google.

share|improve this answer
There are more efficient methods of generating primes than sequenetially applying a primality check. – Hank Gay Jun 22 '10 at 16:00
Of course, but come on, the "how do I generate the first N primes" problem is not exactly new and google should be more than enough to find improvements of every conceivable kind. – Peter G. Jun 22 '10 at 17:14

I wrote a simple sieve implementation recently for the fun of it using BitSet (everyone says not to, but it's the best off the shelf way to store huge data efficiently). The performance seems to be pretty good to me, but I'm still working on improving it.

public class HelloWorld {
    private static int LIMIT = 2140000000;//Integer.MAX_VALUE broke things.
    private static BitSet marked;

    public static void main(String[] args) {
         long startTime = System.nanoTime();
         long estimatedTime = System.nanoTime() - startTime;
        System.out.println((float)estimatedTime/1000000000); //23.835363 seconds
        System.out.println(marked.size()); //1070000000 ~= 127MB

    private static void init()
        double size = LIMIT * 0.5 - 1;
        marked = new BitSet();
        marked.set(0,(int)size, true);

    private static void sieve()
        int i = 0;
        int cur = 0; 
        int add = 0;
        int pos = 0;

        while(((i<<1)+1)*((i<<1)+1) < LIMIT)
            pos = i;
                cur = pos;
                add = (cur<<1);
                pos += add*cur + cur - 1;
                while(pos < marked.length() && pos > 0)
                    pos += add;

    private static void readPrimes()
        int pos = 0;
        while(pos < marked.length())

With smaller LIMITs (say 10,000,000 which took 0.077479s) we get much faster results than the OP.

share|improve this answer

Here is my code for Sieve of Erastothenes and this is actually the most efficient that I could do:

final int MAX = 1000000;
int p[]= new int[MAX];
int prime[] = new int[MAX/10];
void sieve()
    int i,j,k=1;
share|improve this answer

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