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I have got one question to print one million prime numbers . I have written a java program for that .. It's currently taking 1.5 mins approx to calculate it .. I think my solution is not that efficient. I have used the below algo:

  • Adding 1 2 3 to the prime list initially
  • Calculating the last digit of the number to be checked
  • Checking if the digit is 0 , 2 or 4 or 6 or 8 then skipping the number
  • else calculating the square root of the number ..
  • Trying to Divide the number starting from 2 till the square root of the number
  • if number is divisible then skipping the number else adding it to the prime list

I have read several other solutions as well , but I didn't find a good answer. Please suggest ideally what should be approx minimum time to calculate this and what changes are required to make the algorithm more efficient.

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5  
Your algorithm is incorrect, 1 is not prime –  High Performance Mark Nov 15 '12 at 19:09
    
I have added 1 in prime list that is wrong but i am not dividing the number by 1 ... it was written by mistake ... –  priyas Nov 15 '12 at 19:23
    
Looks like Interview question. –  daa Jan 2 '13 at 9:12
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7 Answers 7

If you added 1 to your list, your answer is wrong already :)

Anyway, Sieve of Erathosthenes is where you should begin, it's incredibly simple and quite efficient.

Once you're familiar with the idea of sieves and how they work, you can move on to Sieve of Atkin, which is a bit more complicated but obviously more efficient.

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Key things:

  1. Skip all even numbers. Start with 5, and just add two at a time.
  2. 1 isn't a prime number...
  3. Test a number by finding the mod of all prime numbers till the square root of the number. No need to test anything but primes.
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i have tried to find the mod of all prime numbers till the square root ...but it increased the execution time a little bit ... –  priyas Nov 15 '12 at 19:26
1  
Sounds like either your method of collecting the primes isn't working right, or your listing method. It should be quicker to go through a smaller list of numbers, always... –  PearsonArtPhoto Nov 15 '12 at 19:49
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You might want to implement Sieve of Eratosthenes algorithm to find prime numbers from 1 to n and iteratively increase the range while you are doing it if needed to. (i.e. did not find 1,000,000 primes yet)

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Here's an Ocaml program that implements the Trial division sieve (which is sort of the inverse of Eratosthenes as correctly pointed out by Will):

(* Creates a function for streaming integers from x onward *)
let stream x =
  let counter = ref (x) in
  fun () ->
    let _ = counter := !counter + 1 in
    !counter;;

(* Filter the given stream of any multiples of x *)
let filter s x = fun () ->
  let rec filter' () = match s () with
    n when n mod x = 0 ->
      filter' ()|
    n ->
      n in
  filter' ();;

(* Get next prime, apply a new filter by that prime to the remainder of the stream *)
let primes count =
  let rec primes' count' s = match count' with
    0 ->
      []|
    _ -> 
      let n = s () in
      n :: primes' (count' - 1) (filter s n) in
  primes' count (stream 1);;

It works on a stream of integers. Each time a new prime number is discovered, a filter is added to the stream so that the remainder of the stream gets filtered of any multiples of that prime number. This program can be altered to generate prime numbers on-demand as well.

It should be fairly easy to take the same approach in Java.

Hope this helps!

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1  
that's trial division sieve, not the sieve of Eratosthenes! the SoE generates multiples for each found prime, not tests for them, filtering by mod as your code does. –  Will Ness Nov 15 '12 at 21:52
1  
Yuk! terrible mistake. I have mixed it all up. Thanks! :) –  Asiri Rathnayake Nov 15 '12 at 22:20
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A simple sieve of Eratosthenes runs like the clappers. This calculates the 1,000,000th prime in less than a second on my box:

class PrimeSieve
{
    public List<int> Primes;

    private BitArray Sieve;

    public PrimeSieve(int max)
    {
        Primes = new List<int> { 2, 3 }; // Must include at least 2, 3.
        Sieve = new BitArray(max + 1);
        foreach (var p in Primes)
            for (var i = p * p; i < Sieve.Length; i += p) Sieve[i] = true;
    }

    public int Extend()
    {
        var p = Primes.Last() + 2; // Skip the even numbers.
        while (Sieve[p]) p += 2;
        for (var i = p * p; i < Sieve.Length; i += p) Sieve[i] = true;
        Primes.Add(p);
        return p;
    }
}

EDIT: sieving optimally starts from p^2, not 2p, as Will Ness correctly points out (all compound numbers below p^2 will have been marked in earlier iterations).

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A bit vector is probably the way to go for performance. My streaming version with Ocaml is terribly slow! will give this a try sometime. Thanks! –  Asiri Rathnayake Nov 16 '12 at 1:26
    
@AsiriRathnayake you can dramatically improve the speed of your code, by starting the filtering of each stream at the correct point in time: you need to filter by 3 only from 9; filter by 5 only from 25; etc. See stackoverflow.com/a/8871918/849891 . –  Will Ness Nov 16 '12 at 7:36
    
@WillNess: That explained a lot! Gained about 200% speed increase, but not close to the bit-array based approaches. Will experiment with both the approaches. Thanks! –  Asiri Rathnayake Nov 16 '12 at 10:38
    
@WillNess: you're quite right. I've amended my answer accordingly. –  Rafe Nov 19 '12 at 22:26
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Priya i agree with all the commentators 1 is not the prime number. if you will add 1 as the prime number you will not get the solution. Algebra 2 Help

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First, 1 is not a prime number.

Second, the millionth prime is 15,485,863, so you need to be prepared for some large data-handling.

Third, you probably want to use the Sieve of Eratosthenes; here's a simple version:

function sieve(n)
    bits := makeArray(0..n, True)
    for p from 2 to n step 1
        if bits[p]
            output p
            for i from p*p to n step p
                bits[i] := False

That may not work for the size of array that you will need to calculate the first million primes. In that case, you will want to implement a Segmented Sieve of Eratosthenes.

I've done a lot of work with prime numbers at my blog, including an essay that provides an optimized Sieve of Eratosthenes, with implementations in five programming languages.

No matter what you do, with any programming language, you should be able to compute the first million primes in no more than a few seconds.

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