rand(3)rand(3)NAME
rand, rand_r, srand - Generate pseudorandom numbers
SYNOPSIS
#include <stdlib.h>
int rand(
void ); int rand_r(
unsigned int *seedptr ); void srand(
unsigned int seed );
The following function does not conform to current standards and is
supported only for backward compatibility:
int rand_r(
unsigned int *seedptr,
int *randval );
LIBRARY
Standard C Library (libc)
Berkeley Compatibility Library (libbsd.a)
STANDARDS
Interfaces documented on this reference page conform to industry stan‐
dards as follows:
rand_r(): POSIX.1c
rand(), srand(): XPG4, XPG4-UNIX
Refer to the standards(5) reference page for more information about
industry standards and associated tags.
PARAMETERS
Specifies an initial seed value. Points to a seed value, updated at
each call. Points to a place to store the random number.
DESCRIPTION
The rand() function returns successive pseudorandom numbers in the
range from 0 (zero) to RAND_MAX. The sequence of values returned
depends on the seed value set with the srand() function. If rand() is
called before any calls to srand() have been made, the same sequence
will be generated as when srand() is first called with a seed value of
1.
The srand() function resets the random-number generator to a random
starting point. The generator is initially seeded with a value of 1.
The rand() function is a very simple random-number generator. Its
spectral properties, the mathematical measurement of how random the
number sequence is, are somewhat weak.
[POSIX] The rand_r() function is the reentrant version of the rand()
function. The rand_r() function places the seed value at the address
pointed to by seedptr, and returns the random number.
[Tru64 UNIX] The obsolete version of the rand_r() function places the
seed value at the address pointed to by seedptr, and places the random
number at the address pointed to by randval.
See the drand48() and random() functions for more elaborate random-num‐
ber generators that have better spectral properties.
NOTES
The rand() function is not supported for multithreaded applications.
Instead, its reentrant equivalent, rand_r(), should be used with multi‐
ple threads.
The BSD version of the rand() function returns a number in the range 0
to (2^31)-1, rather than 0 to (2^15)-1, and can be used by compiling
the code with the Berkeley Compatibility Library (libbsd.a).
There are better random number generators, as noted above; however, the
rand() and srand() functions are the interfaces defined for the ANSI C
library.
The following functions define the semantics of the rand() and srand()
functions, and are included here to facilitate porting applications
from different implementations:
static unsigned int next = 1; int myrand(void) {
next = next * 1103515245 + 12345;
return ( (next >>16) & RAND_MAX); } void mysrand (unsigned int
seed) { next = seed }
RETURN VALUES
The rand() function returns the next pseudorandom number in the
sequence.
[POSIX] The rand_r function returns the next random number in the
sequence.
[Tru64 UNIX] Upon successful completion, the obsolete version of the
rand_r() function returns a value of 0 (zero). Otherwise, -1 is
returned and errno is set to indicate the error.
The srand() function returns no value.
ERRORS
[Tru64 UNIX] If the rand_r() function fails, errno may be set to the
following value: Either seedptr or randval is a null pointer.
SEE ALSO
Functions: drand48(3), random(3)
Standards: standards(5)rand(3)