In C/C++, rand() and srand() are usually used by us when we want to get a random integer. But when I tried to rewrite it myself, I found it difficult to understand the algorithm. The function is very easily written in only a few lines, but the formula is misunderstanding.

The main formula:

ptd->_holdrand = ptd->_holdrand * 214013L + 2531011L;

The original code involved:

void __cdecl srand (unsigned int seed)
    _getptd()->_holdrand = (unsigned long)seed;

int __cdecl rand (void)
    _ptiddata ptd = _getptd();
    return ( ((ptd->_holdrand = ptd->_holdrand * 214013L + 2531011L) >> 16) & 0x7fff );
  • 1
    hmm, I dunno, the function is already there... Why try to reimplement it? – Triton Man Jul 22 '11 at 16:30
  • 10
    @Rocky, there's nothing wrong with trying to understand the underpinnings of the code we take for granted. In fact it should be encouraged. – Mark Ransom Jul 22 '11 at 16:33
  • @Rocky: Indeed! Never take something for granted if you don't at least have a chance of a hope that you could explain the principle of it. Qi Guo: if you're tired of the LCG, check out the Mersenne Twister, a popular, fast, high-quality PRNG. – Kerrek SB Jul 22 '11 at 16:46
  • @Mark Thanks for your encouragement:) I totally agree with you. – moonkey Jul 22 '11 at 16:56
  • @Kerrek Thanks for your answering,I'll try it. – moonkey Jul 22 '11 at 16:58
up vote 18 down vote accepted

It's just modular arithmetic. You're multiplying and adding to a number which is taken modulo 2^32 (for example), and returning the upper 16 bit as your "random" number. Because you're multiplying and adding numbers which are coprime to the modulus, this creates sort of uniformly distributed numbers.

The careful choice of the two numbers is very important. For example, if you had used "* 4" and "+ 8", you would probably not experience a lot of randomness.

This scheme is called linear congruential.

That pseudorandom number generator is a Linear Congruential Generator.

You can find an explanation of the Linear Congruential Generator (LCG) and other similar families or pseudo random generators, and about the selection of these specific constants in an excellent article published this month (7-2011) in Dr. Dobb's Journal (DDJ): Fast, High-Quality, Parallel Random-Number Generators: Comparing Implementations.

I think you'll need to register at DDJ's website (free) to read the first part of this article (link), but if you're into C++ and mathematics you should do it anyway...

  • Thanks:)I've stept into the link given, but it's quite hard to read as English isn't my mother language.I'll try my best. – moonkey Jul 22 '11 at 17:00

Prior to calling rand, since the man page for srand indicates that "If no seed value is provided, the rand() function is automatically seeded with a value of 1", then a better approach to invoking rand is to first invoke srand which will "set its argument as the seed for a new sequence of pseudo-random integers to be returned by rand()".

As an example, consider the following awk, nawk, gawk code which is used in a bash shell script to create a new (random) mac address - i.e. .genmacaddr referenced in code snippet:

enter code here
     n0 = "00"
     n1 = sprintf("%02x", int(255 * rand()))
     n2 = sprintf("%02x", int(255 * rand()))
     n3 = sprintf("%02x", int(255 * rand()))
     n4 = sprintf("%02x", int(255 * rand()))
     n5 = sprintf("%02x", int(255 * rand()))
     print n0":"n1":"n2":"n3":"n4":"n5

where the code snippet in the bash shell script is:

enter code here
ifconfig eth0 down
newmacaddr=`nawk -f .genmacaddr -`
ifconfig eth0 hw ether $newmacaddr
ifconfig eth0 up

If I am not mistaken, the seed value for srand is derived from the system clock.

I hope this helps you to understand an approach to your coding solution that will work.

As has been said it's a linear congruential, (you can look that up if you want in depth commentary on how these generate pseudo-random values)

the seed is stored in _getptd()->_holdrand (hereafter called holdrand)

This code "works" by doing the normal multiply and add step but then overflowing holdrand to get the implied "modulus" 0x100000000.

I mention this because it's not immediately obvious, and generally not considered good style.

Technically overflowing an integer variable isnvokes the undefined behaviour, but on most platforms it's quite predictable so Microsoft's engineers are ignoring that issue.

Your Answer

By clicking "Post Your Answer", you acknowledge that you have read our updated terms of service, privacy policy and cookie policy, and that your continued use of the website is subject to these policies.

Not the answer you're looking for? Browse other questions tagged or ask your own question.