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I'm looking to generate large, non-negative integer random values on a POSIX system. I've found 2 possible functions that fit the bill, and their respective initializers:

       #include <stdlib.h>

       long int random(void);    
       void srandom(unsigned int seed);
CONFORMING TO
       4.3BSD, POSIX.1-2001.

       // and

       long int lrand48(void);
       void srand48(long int seedval);    
CONFORMING TO
       SVr4, POSIX.1-2001.
  1. Which functions are preferred (thread-safety and range of values generated)?
  2. Given that security is not a concern, how should I seed them?
  3. Should seeding methods differ due to the differing arguments for the seeding functions (long int vs. unsigned int)?
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1 Answer

Use nrand48, it has the same range as lrand48 and receives a pointer to an array used as a seed. making this thread local will ensure thread safety. (as a side note, it appears the glibc implementation may have some issues, see http://evanjones.ca/random-thread-safe.html for more information, this page also contains a nice summary of thread safe random number generation functions)

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+1 for pointing to nrand48 and the side note on its potential issues –  jschmier Feb 2 '11 at 16:02
    
Can you explain why nrand48 is better than random? –  Matt Joiner Feb 21 '11 at 14:21
1  
AFAICT, random is not inherently thread safe (The glibc implementation is, since it locks its internal state, but this may not be true of all POSIX implementations). glibc offers random_r which is thread safe but not portable. the only thing nrand48 does better is thread safety, allowing you to get independent random numbers streams. the ranges are similar (random is 2^31 - 1, nrand48 is 2^31), the period for random may be longer. The bottom line, IMHO, is use nrand48 if you need thread safety, random otherwise. –  Hasturkun Feb 21 '11 at 17:20
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