I've noticed, that standard rand() function gives different results on Windows and Linux. Ofcourse I've used the same seed number (1234). Here are several first results:

WIN: 4068 213 12761 8758

LIN: 479142414 465566339 961126155 1057886067

My application requires that both platforms produce identical output. What are my options? Is there any good replacement for rand() that meets my requirement ?

thanks

PS. I used MSVC 2008 on Windows7, and gcc 4.1.2 on CentOS 5.5

  • 2
    Why do you need random numbers to be identical across platforms? That's not very random, after all - what are you trying to achieve? – Eamon Nerbonne Oct 18 '10 at 12:26
  • @EamonNerbonne Possible scenario: App developed under linux and cygwin and tested with randomized test. The seed is printed for each test. If the test identifies an error condition one can reproduce the error case with the help of the seed. If one wants to debug the error case on linux and cygwin it would be very nice if rand would return the same random sequence under linux and cygwin. – Tobias Dec 11 '17 at 8:48
up vote 19 down vote accepted

Boost has a wide range of RNGs, presumably with reproducible behaviour across platforms.

  • The Boost PRNG's all have references to the algorithm they implement and the paramters chosen. So, not only will the behavior be reproducible, it will also be mathematically defined (i.e. there is an absolute standard for correctness) – MSalters Oct 19 '10 at 9:24
  • 1
    Why “not recommended”? A LCG is a trivial one-liner, and the Wikipedia article offers a list of commonly-used constants that produce more or less good behaviour (on par with the C standard library implementations). – Konrad Rudolph Oct 18 '10 at 11:53
  • 5
    Not recommended because the correctness of the implementation is hard to test and any errors aren't immediately apparent but may cause issues much later during app execution. Also, why reinvent the wheel? – Eamon Nerbonne Oct 18 '10 at 11:55
  • @Eamon: “why reinvent the wheel?” It’s a frackin’ one-liner. Downloading the Boost header (although this would be the first solution I’d recommend, too) is guaranteed to be more work. And in general I’d agree about correctness. But once again: it’s a one-liner. Which I copied from Wikipedia. What’s there to get wrong? – Konrad Rudolph Oct 18 '10 at 12:00
  • @Konrad: You may need better properties than the LCG can offer. – Oliver Charlesworth Oct 18 '10 at 12:05
  • WHile I agree with @Konrad that reasonable LCG constants are available and the implementation of one is trivial, I still wouldn't use it except in the most speed or space constrained circumstances because they suffer quality issues even when drawing (x,y) pairs. – dmckee Oct 18 '10 at 12:05

If you’re happy with the standard rand implementation and only require reproduceability, you can easily write your own linear congruential generator (adapting the C interface, probably not a good choice! – rather use a class instead):

namespace myown {

static int state;

void srand(int seed) {
    state = seed;
}

int rand() {
    int const a = 1103515245;
    int const c = 12345;
    state = a * state + c;
    return (state >> 16) & 0x7FFF;
}

}

This uses constants (ANSI C: Watcom) from the Wikipedia article.

That said, I’d rather go with a read-made implementation from Boost, as proposed by others.

  • +1 for the correct answer to the question (the OP wants reproduce-ability, not a good RNG). Just remember to use a good RNG once you've finished testing >;-) – smirkingman Oct 18 '10 at 12:49

You won't get the same results due to the different implementation of the functions on either platform.

I think you will even find different linux versions returning different values, as well as different windows versions returning different values.

You could unify your random generator by using the glibc one, for example.

Another option for you is writing your own function BUT do that ONLY if you are 100% sure you don't need to use your random for cryptographic use or any other use that requires the thing to have unpredictability or uniformness or otherwise randomish properties.

You may try srand(int), which generates random number based on seed (input)

-- Cheers

  • 2
    True, but the results will only be the same if the underlying algorithm and parameters are also the same. – James K Polk Oct 18 '10 at 11:54

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