# Linear congruential generator: How important is setting seed?

I'm learning about linear congruential generator in an algorithms and data structures course. After thinking about RNG implementation we've been using (a=429493445, c=907633385, mod=4294967296, X is _uint32), one thing came to my mind: Program has a function for setting seed.

How important would that function be in C and C++?

Here's my line of thought: Once the program starts, OS assigns addresses to all used variables. Data which is in memory location given to seed can be interpreted as a number.

I understand that in small computers it may happen that operating system (if there is one) assigns several times same address to seed but wouldn't data contained in that address be different every time? Unless the system sets all free RAM to some value after every start, data contained in RAM would be pretty much random itself and provide good enough seed.

Even if data contained in space given to seed was used by another program, I don't see how would that make an impact on the generator itself.

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"The generation of random numbers is too important to be left to chance" -- Robert R. Coveyou –  pmg Oct 7 '10 at 9:42
@pmg I'm sorry, I don't understand what you mean. –  AndrejaKo Oct 7 '10 at 9:44
@pmg: "Anyone who considers arithmetical methods of producing random digits is, of course, in a state of sin." - John von Neumann –  Steve Jessop Oct 7 '10 at 9:49
What Robert R. Coveyou meant is, I think, that generating good random numbers is difficult and chance, possibly limited to computer algorithms, is not a valid method. –  pmg Oct 7 '10 at 9:51
@AndrejaKo: Coveyou's witticism (as applied to this example) is that you're using some data which you do not know how to predict, but you also don't know how random it really is. Maybe on some systems it's actually very predictable. Even on computers that aren't small, with virtual addressing you could find that pretty much everything in the program appears at the same (virtual) location every single time. So, don't "leave it to chance" by relying on your imperfect knowledge - just because you personally can't currently work out a way to predict it doesn't mean it's reliably random. –  Steve Jessop Oct 7 '10 at 9:51

While for unserious playing around with RNGs, seeding with "junk in memory" probably will work OK. But it is really a bad way to do things: You have no guarantee that the data in memory is random, even though it can be. In security applications (which I guess are not relevant here, since you're using a linear congruence generator) you don't want parts of the environment not under your control (RAM) to act as seed. In other applications, such as scientific computing, you want your results to be reproducible. What you do then is usually to let the user choose a seed for himself, and provide an option to sample the OS RNG for a seed (/dev/random on UNIX-like systems).

The bottom line is: If you want a random seed, get it from a good source of randomness. Pretty much any easily accessible source provided by your OS will be better than "hey, what's in RAM at this location today?". Sampling from for example /dev/urandom is no more difficult than sampling RAM, and it's the Right Thing To Do (for non-security-sensitive things, of course).

Edit: Here's how to sample /dev/urandom on GNU/Linux using C:

``````int seed;
FILE* urandom = fopen("/dev/urandom", "r");
fclose(urandom);
``````

Now `seed` holds an integer ready to be used as a seed for your PRNG (you may need a different datatype).

Wikipedia has some nice information on /dev/random and /dev/urandom.

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Where would I find some information about easily accessible randomness sources provided by popular OSes today (Windows, GNU/Linux)? Or should I post that as separate question? –  AndrejaKo Oct 7 '10 at 9:47
@AndrejaKo: Added a link to a decent Wikipedia article and a code example. –  gspr Oct 7 '10 at 9:53

Don't set the seed to ZERO. Initializing by `/dev/urandom` will be the best way.

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OpenSSL does use uninitialized memory to generate part of its randomness initialization. There was some noise 2 years ago when Debian did remove this, thinking that it was a bug to use uninitialized variables.

Note that this was not the only source of entropy in OpenSSL

So yes, uninitialized memory can be used as a source of randomness. But be carefull to really understand what you are doing !

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I would like to add to that last sentence: And clearly document what you are doing and that you are doing it on purpose. Otherwise you can easily have a maintenance programmer that takes out your source of randomness. –  Bart van Ingen Schenau Oct 7 '10 at 10:56
Debian was correct to consider this a bug. It has undefined (not unspecified) behavior and a future compiler & library version would be perfectly free to make it crash the program. The OS provides correct ways to get entropy; use them. And give Theo the finger. –  R.. Oct 7 '10 at 16:36