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I want to store primary numbers in an array up-to n=100000 with an efficient algorithm.I am using the basic method to store prime numbers but it is taking more time.

       void primeArray(){
        int primes[100000],flag=0,k=2; 
        primes[0]=2;
        primes[1]=3;
        for(int i=5;i<n;i=i+2){
                for(int j=2;j<i/2;j++){
                    if(i%j==0){
                    flag=1;
                    break;
                   }
                }

            if(flag==0){
                primes[k]=i;
                k++;
            }

            flag=0;
       }   
     }
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closed as not a real question by Brad M, Alexey Frunze, OscarRyz, M M., Graviton Apr 10 '13 at 2:00

It's difficult to tell what is being asked here. This question is ambiguous, vague, incomplete, overly broad, or rhetorical and cannot be reasonably answered in its current form. For help clarifying this question so that it can be reopened, visit the help center.If this question can be reworded to fit the rules in the help center, please edit the question.

4  
is this about storage of numbers? or about finding prime numbers? –  Mike Rylander Apr 9 '13 at 15:51
    
Did you try googling "prime number algorithm" or something similar? –  Code-Apprentice Apr 9 '13 at 15:51
    
'Sieve of Eratosthenes' –  nbrooks Apr 9 '13 at 15:52
2  
@Mike It's storing prime numbers in an array primes[]. –  Sourabh Banerjee Apr 9 '13 at 15:54
    
A downvote with no comment for the OP to work with :-(... @Sourabh, a lot has been written about efficient ways to find (probable) primes. Wikipedia's guide to the Sieve of Eratosthenes is a good place to start (but you'll to know a bit about mathematical modulus [not computing mod operator]). Perhaps this SO post is more useful. –  wmorrison365 Apr 9 '13 at 15:57
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6 Answers

I'm assuming you already know how to compute the primes and are looking for a compact way to store them.

If by "most efficient" you mean "compressed into the smallest possible space" there is a method that stores primes in a bitarray that is about half as many bits as just storing a true/false flag in a bitarray.

The trick is that all primes except 2, 3 and 5 are of the form 30x plus 1, 7, 11, 13, 17, 19, 23 or 29. Thus you can store the primes from 1 to 30 in a single byte (ignoring 2, 3, 5), then the primes from 31 to 60 in a single byte, then the primes from 61 to 90, and so on. You will have to handle 2, 3 and 5 separately.

Let's consider 67 as an example. Calculate 67 / 30 = 2 using integer division, so you will look at the byte at index 2 of the array of prime-indicating bytes. Then 67 - 30 * 2 = 7, which is the second bit of the byte, so you look there, find a 1, and conclude 67 is a prime.

With this approach, you can store the primes less than a million in 33,334 bytes. For more information, look at my blog.

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Use collections like Set or even List. As primary numbers must be unique, Set should be the obvious choice.

Eg : Set<Long> set = new HashSet<Long>();

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1  
prime numbers are inherently ordered though, suggesting set might not be quite the right thing... –  nbrooks Apr 9 '13 at 15:53
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// initialize list
ArrayList primes = new ArrayList();

// add another number
primes.add(newPrime);

// convert to primitive array  
primes.toArray();  
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2 and 3 are also primes: you want to include them.

You can improve the complexity of your algorithm from O(n^2) to O(n^{3/2}) by making the second loop iterate while j * j <= i.

Or you can use the Sieve of Erastosthenes, which will be O(n log log n).

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O(n * log log n) for the Sieve of Eratosthenes. –  Daniel Fischer Apr 9 '13 at 16:00
    
@DanielFischer: I stand corrected. Thanks! –  abeln Apr 9 '13 at 16:01
    
ok thanx everyone –  Sourabh Banerjee Apr 9 '13 at 16:09
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AsEvery integer in an array have 32 bits .

So you can follow this

if(isPrime(n))
a[n/32]=a[n/32]|(1<<(n%32));

This way you are setting the n'th bit as 1 , which means that n is prime . Just you can store

more primes with less memory and you can use sieve of Atkin from efficient prime checking .

http://en.wikipedia.org/wiki/Sieve_of_Atkin

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There are 9592 primes below 100000. All numbers below 100000 can be represented in 17 bits (as 2 ^ 17 is 131072). Furthermore, all primes but the prime 2 are odd, and therefor would have a 0 in the last bit - we can therefor represent each prime below 100000 in 16 bits or 2 bytes. So, make an array of double bytes with the 9591 odd primes and a special rule about the prime 2. This gives 19182 bytes of data.

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