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I have some code i'm running in parallel using an OMP for loop, up to large numbers. The code (with unimportant bits removed) is as follows (apologies if it's a mess/hard to follow):

long int primePos=-1;
unsigned long long int odd;
int primeFactor;
    #pragma omp parallel for shared(numberElements, iStart, iEnd,tau, wall0) schedule (guided) private(primePos,odd,primeFactor)
    for(unsigned long long int i=iStart;i<=iEnd;i++){
        #pragma omp atomic

            primeFactor = getPrimeFactor(odd);
            for(long int j=0;j<PrimeDatL;j++){
            #pragma omp critical 
                    cout<<"Array overflow, exiting."<<endl;

The idea is that I go through all the odds up to 2^n, if they're not prime I take the smallest prime factor and put it, along with the odd, in a vector which is arranged in a particular fashion. The variable primePos simply denotes which spot in this vector it goes into, and isn't a particularly large number so it was originally simply an int type.

However, for larger values of n ~33, I found that InsertElement() was throwing an exception because primePos was huge, much larger than it could possibly be as defined in the for loop which searches for the position of primeFactor in PrimeDataT. This was rectified (well, it compiles and runs and for low values of n i can verify in mathematica that it's correct) by changing primePos from int to long int, but i've no idea why that should be the case and I'd like to know before I continue, in case I'm missing something important.

tl;dr = how can primePos take a value larger than PrimeDatL if it is declared as an int instead of long int? Thanks in advance!

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2^33 doesn't fit in an int on most systems. There's probably an overflow problem. –  user2357112 Nov 13 '13 at 1:43
what platform are you on. IN some cases int is the same as long int some times not –  pm100 Nov 13 '13 at 2:03

1 Answer 1

Once a int reaches a value greater then 2,147,483,647, it will begin to count "up" from -2,147,483,648 a int is simply 32 bits and cannot be larger than half that to account for negative values.

If the problem you are having is that your primePos is being set to a number like 2^33 you may have to create a new way to find the position.

hope that helps -J

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Hi J (and others) Sorry, I should have clarified the variables: odds will be the very large number primePos<PrimeDatL will NOT be very large ( PrimeDatL is essentially the number of primes less than 2^n, which is much much less than odds which is the number of non-prime odd numbers less than 2^n) For instance, for n = 33, PrimeDatL is only about 9000 (according to the prime algorithm i pinched from someone else on this forum, which may indeed be a source of error if i am misusing it/going beyond its scope) –  zylatis Nov 13 '13 at 2:08
Would you happen to be able to link to that algorithm, it sounds like you're trying to use Eratosthenes algorithm for finding primes. Here –  John Nov 13 '13 at 2:17
I'm using the code from this post: tinyurl.com/kcdckmy I doubt it is the problem though (unless it's causing some complex knock-on effect) as Mathematica gives the same number of primes for n = 33 as my code, so PrimeData array I think is correct, it's something funny going on with the PrimePos counter itself (which merely counts over elements in PrimeData). Basically the issue is that when i set primePos = j, it still sometimes returns primePos> PrimeDatL, despite j only looping up TO PrimeDatL (unless I use long int instead of int, which really should make no difference) –  zylatis Nov 13 '13 at 4:11

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