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before I start asking, I will tell what I did. there was a problem, problem 3, you can go to that link and see what it requires. To solve it, i just wrote a function to find if that number is prime or not. Simple.

But, problem 10 requires sum of all prime number under 2 million(2000000), I solve this by simply checking all numbers until 2m and see if its prime then add it to some variable.(if its prime)

However, doing that takes so much time. and with so much time i mean hours. lots of hours. so I dont think my answer was right :)

I googled the question before asking here, but I found no c#. closest one i can found was java and fortran, which i cant seem to realize the algorithm.

Here I am, asking this. how you could do this ? checking every number till 2m and notice it if its prime is not fast way.(also this questions supposed to be calculated under 1 minute(by problem i mean, not by you lol) afaik)


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Welcome to Stack Overflow, please read through the faq. You haven't posted any code, so there's no way of knowing what your competency level is for code. Also, it would help us as far as where to start improving your algorithm. One tip I can think of is to not check every number. Once you've checked a number, you wont need to check multiples. Half of the numbers < 2,000,000 are multiples of 2. – zzzzBov Jun 6 '11 at 0:21

3 Answers 3

up vote 2 down vote accepted

A slightly modified version of Ben Voigt:

    public static void FirstPrime(int limit)
        Stopwatch sw = new Stopwatch();
        bool[] composite = new bool[limit];
        long sum = 0;
        int count = 0;

        for (int i = 3; i < limit; i++)
            if (i % 2 == 1)
                if (!composite[i])
                    sum += i;
                    for (int j = i; j < limit; j += 2 * i)
                        composite[j] = true;
        sum += 2;
        Console.WriteLine("There are " + count + " prime numbers less than " + limit + " totalling " + sum);
        Console.WriteLine("Time elapsed: {0}",sw.Elapsed);

When test with Limit = 20,000,000, the original version costs 1,23s, and this version cost 0,7259s

When test with Limit = 50,000,000, the original version costs 3,34s, and this version cost 1,988s

Generally, this version is about 1.6 times faster :)

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If you're so concerned with efficiency, wouldn't it be better to use i += 2 rather than i++ and skip the "if ((i % 2) == 1)" check? – phoog Jun 6 '11 at 3:56
great catch :), reduced runtime about 8% :) – Vimvq1987 Jun 6 '11 at 3:59
I don't know where you're getting these numbers, but it's only 0.1 seconds for 50,000,000 iterations: Skipping the odd numbers saves just a tiny bit: – Ben Voigt Jun 6 '11 at 4:01
I benchmarked on my machine, and Limit = 50,000,000 , not 5,000,000 :) – Vimvq1987 Jun 6 '11 at 4:04
@Vimvq1987 I just remembered that you can also define your loop as for (int j = i * i; j < limit; j += 2 * i) because any composite between i and i * i must have an already-processed prime as one of its factors, so it has already been marked. – phoog Jun 6 '11 at 19:38

Instead of checking each number individually for primality, you could (should) use a sieve.

Maybe you can even figure out the sum of all numbers the sieve removes at once...

Straightforward solution hidden below:

A slightly considerably faster version (thanks to @Vimvq1987):

And an associated .NET 4.0 bug, I believe:

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I think this is probably the best bet. It's been a while, but I remember The Seive of Eratosthenes ( being fairly straightforward to implement. There might be more efficient methods, but then there's the tradeoff between ease of implementation and efficiency. – Thomas Owens Jun 6 '11 at 0:23
@Thomas: That was my intent. Actually, I just implemented the Sieve of Eratosthenes to see, it runs in 50 milliseconds on ideone. – Ben Voigt Jun 6 '11 at 0:30

See Sieve of Eratosthenes for details on a 'fast' prime number search algorithm. The wikipedia entry even points to a C# implementation. Another option might be to research any mathematical properties of sums of prime numbers.

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