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To check my C++ code, I would like to be able to let Boost::Random and Matlab produce the same random numbers.

So for Boost I use the code:

boost::mt19937 var(static_cast<unsigned> (std::time(0)));
boost::uniform_int<> dist(1, 6);
boost::variate_generator<boost::mt19937&, boost::uniform_int<> > die(var, dist);
for(int i = 0; i < 10; ++i) {
    std::cout << die() << " ";
std::cout    << std::endl;

Which produces (every run of the program):
4 4 5 6 4 6 4 6 3 4

And for matlab I use:


Which produces (every run of the program):
5 6 1 6 4 1 2 4 6 6

Which is bizarre, since both use the same algorithm, and same seed. What do I miss?

It seems that Python (using numpy) and Matlab seems comparable, in the random uniform numbers: Matlab


0.8479 0.1889 0.4506 0.6253 0.9697 0.2078 0.5944 0.9115 0.2457 0.7743

Python: random.seed(203);random.random(10)

array([ 0.84790006, 0.18893843, 0.45060688, 0.62534723, 0.96974765, 0.20780668, 0.59444858, 0.91145688, 0.24568615, 0.77430378])


0.8479 0.667228 0.188938 0.715892 0.450607 0.0790326 0.625347 0.972369 0.969748 0.858771

Which is identical to ever other Python and Matlab value...

share|improve this question
Why don't you just generate a random stream either in C or MATLAB, store it on a file, and access it through both the environments? – notthetup Apr 29 '11 at 8:02
I think that you should not feed Boost whit time(0). – Luka Rahne Apr 29 '11 at 8:05
@ntt, that is a possibility but for me not favourable, it seems really a hack. – Thomas Apr 29 '11 at 8:34
@ralu, Ok, thanks for the tip, but even without that init results are exactly similar – Thomas Apr 29 '11 at 8:35
At least figure out if multiple runs whit same init produce same results each time for each function. As far as I know MT uses own seed generator. – Luka Rahne Apr 29 '11 at 8:49
up vote 4 down vote accepted

I have to agree with the other answers, stating that these generators are not "absolute". They may produce different results according to the implementation. I think the simplest solution would be to implement your own generator. It might look daunting (Mersenne twister sure is by the way) but take a look at Xorshift, an extremely simple though powerful one. I copy the C implementation given in the Wikipedia link :

uint32_t xor128(void) {
  static uint32_t x = 123456789;
  static uint32_t y = 362436069;
  static uint32_t z = 521288629;
  static uint32_t w = 88675123;
  uint32_t t;

  t = x ^ (x << 11);
  x = y; y = z; z = w;
  return w = w ^ (w >> 19) ^ (t ^ (t >> 8));

To have the same seed, just put any values you want int x,y,z,w (except(0,0,0,0) I believe). You just need to be sure that Matlab and C++ use both 32 bit for these unsigned int.

share|improve this answer
Thanks, this is indeed easy to implement. I'll use this for testing, unless someone knows an easy off the shelve approach. Cheers Thomas – Thomas Apr 29 '11 at 11:02
This seems the easiest way to solve it. I've implemented the method (+ a method for uniform and intergers) in both Matlab and C++. Basic, but for basic testing absolutely good enough. Thanks – Thomas Apr 29 '11 at 12:21

Using the interface like


will apply some kind of transformation on the raw result of the random generator. This transformation is not trivial in general and Matlab will almost certainly do a different selection step than Boost.

Try comparing raw data streams from the RNGs - chances are they are the same

share|improve this answer
Unforutnately also the outputs of rand seems different (I dont know how to get raw output from Matlab). It is a pity. But much more complex then I thought/hoped. I'll switch to another approach. – Thomas Apr 29 '11 at 10:25

In case this helps anyone interested in the question:

In order to the get the same behavior for the Twister algorithm:

  1. Download the file http://www.math.sci.hiroshima-u.ac.jp/~m-mat/MT/MT2002/CODES/mt19937ar.c

  2. Try the following:

    #include <stdint.h>
    // mt19937ar.c content..
    int main(void)
        int i;
        uint32_t seed = 100;
        for (i = 0; i < 100; ++i)
        return 0;
  3. Make sure the same values are generated within matlab:

    RandStream.setGlobalStream( RandStream.create('mt19937ar','seed',100) );
  4. randi() seems to be simply ceil( rand()*maxval )

share|improve this answer
+1 MATLAB internally uses genrand_res53 to randomly generate floating-point numbers between 0 and 1. In fact this function calls genrand_int32 twice (two 32-bit integers) to build its output, which explains why OP sees same numbers every other value compared to Boost. The reason to use genrand_res53 as opposed to genrand_real2 is that it gives numbers with more resolution (53-bit). MATLAB, Octave, NumPy, and probably other frameworks are all based on the reference implementation of "Nishimura & Matsumoto". – Amro Jun 23 '14 at 23:20
In MATLAB, all builtin RNG functions (rand, randn, randi) are implemented in terms of genrand_res53 (at least that's the case for the default generator), and they share the same underlying random stream. randi is equivalent to ceil(rand()*maxVal), while randn uses the Ziggurat transformation method on top of the default mt19937ar generator. Of course MATLAB has other PRNG methods besides Mersenne Twister: mathworks.com/help/matlab/math/…. btw setting the seed in MATLAB can be simplified as: rng(100) – Amro Jun 23 '14 at 23:24

Thanks to Fezvez's answer I've written xor128 in matlab:

function [ w, state ] = xor128( state )
%XOR128 implementation of Xorshift
%   https://en.wikipedia.org/wiki/Xorshift
%   A starting state might be [123456789, 362436069, 521288629, 88675123]

  x = state(1);
  y = state(2);
  z = state(3);
  w = state(4);

  % t1 = (x << 11)
  t1 = bitand(bitshift(x,11),hex2dec('ffffffff'));

  % t = x ^ (x << 11)
  t = bitxor(x,t1);

  x = y;
  y = z;
  z = w;

  % t2 = (t ^ (t >> 8))
  t2 = bitxor(t, bitshift(t,-8));

  % t3 = w ^ (w >> 19)
  t3 = bitxor(w, bitshift(w,-19));

  % w = w ^ (w >> 19) ^ (t ^ (t >> 8))
  w = bitxor(t3, t2);

  state = [x y z w];

You need to pass state in to xor128 every time you use it. I've written a "tester" function which simply returns a vector with random numbers. I tested 1000 numbers output by this function against values output by cpp with gcc and it is perfect.

function [ v ] = txor( iterations )
%TXOR test xor128, returns vector v of length iterations with random number
% output from xor128

% output
v = zeros(iterations,1);

state = [123456789, 362436069, 521288629, 88675123];

i = 1;

while i <= iterations

    [t,state] = xor128(state);
    v(i) = t;

    i = i + 1;
share|improve this answer
Nicely done! Thanks for helping everyone – Fezvez Sep 22 '14 at 6:21

I would be very careful assuming that two different implementations of pseudo random generators (even though based on the same algorithms) produce the same result. There could be that one of the implementations use some sort of tweak, hence producing different results. If you need two equal "random" distributions I suggest you either precalculate a sequence, store and access from both C++ and Matlab or create your own generator. It should be fairly easy to implement MT19937 if you use the pseudocode on Wikipedia.

Take care ensuring that both your Matlab and C++ code runs on the same architecture (that is, both runs on either 32 or 64-bit) - using a 64 bit integer in one implementation and a 32 bit integer in the other will lead to different results.

share|improve this answer

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