shithub: riscv

ref: abdb62608209861e52798c1225d8779c5cd96196
dir: /sys/man/2/rand/

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.TH RAND 2
.SH NAME
rand, lrand, frand, nrand, lnrand, srand, truerand, ntruerand, genrandom, prng, fastrand, nfastrand \- random number generators
.SH SYNOPSIS
.B #include <u.h>
.br
.B #include <libc.h>
.PP
.ta \w'\fLdouble 'u
.B
int	rand(void)
.PP
.B
long	lrand(void)
.PP
.B
double	frand(void)
.PP
.B
int	nrand(int val)
.PP
.B
long	lnrand(long val)
.PP
.B
void	srand(long seed)
.PP
.B
ulong	truerand(void)
.PP
.B
ulong	ntruerand(ulong val)
.sp
.B #include <libsec.h>
.PP
.B
void	genrandom(uchar *buf, int nbytes)
.PP
.B
void	prng(uchar *buf, int nbytes)
.PP
.B
ulong	fastrand(void)
.PP
.B
ulong	nfastrand(ulong val)
.SH DESCRIPTION
.I Rand
returns a uniform pseudo-random
number
.IR x ,
.if t 0≤ \fIx\fR <2\u\s715\s10\d.
.if n 0≤ x <2^15.
.PP
.I Lrand
returns a uniform
.B long
.IR x ,
.if t 0≤ \fIx\fR <2\u\s731\s10\d.
.if n 0≤ x <2^31.
.PP
.I Frand
returns a uniform
.B double
.IR x ,
.RI 0.0≤ x <1.0,
This function calls
.I lrand
twice to generate a number with as many as 62 significant bits of mantissa.
.PP
.I Nrand
returns a uniform integer
.IR x ,
.RI 0≤ x < val.
.I Lnrand
is the same, but returns a
.BR long .
.PP
The algorithm is additive feedback with:
.IP
x[n] = (x[n\(mi273] + x[n\(mi607]) mod
.if t 2\u\s731\s0\d
.if n 2^31
.LP
giving a period of
.if t 2\u\s730\s10\d \(mu (2\u\s7607\s10\d \- 1).
.if n 2^30 × (2^607 - 1).
.PP
The generators are initialized by calling
.I srand
with whatever you like as argument.
To get a different starting value each time,
.IP
.L
srand(time(0))
.LP
will work as long as it is not called more often
than once per second.
Calling
.IP
.L
srand(1)
.LP
will initialize the generators to their
starting state.
.PP
.I Truerand
returns a random unsigned long read from
.BR /dev/random .
.PP
.I Ntruerand
returns a uniform random integer
.IR x ,
.if t 0≤ \fIx\fR < \fIval\fR ≤ 2\u\s732\s10\d-1.
.if n 0≤ x < val ≤ 2^32-1.
.PP
.I Genrandom
fills a buffer with bytes from the cryptographic pseudo-random
number generator. The generator is automatically seeded by
.IR truerand .
.PP
.I Prng
uses the native
.IR rand (2)
pseudo-random number generator to fill the buffer.  Used with
.IR srand ,
this function can produce a reproducible stream of pseudo random
numbers useful in testing.
.PP
Both
.I genrandom
and
.I prng
may be passed to
.I mprand
(see
.IR mp (2)).
.PP
.I Fastrand
uses
.I genrandom
to return a uniform
.B "unsigned long
.IR x ,
.if t 0≤ \fIx\fR <2\u\s732\s10\d-1.
.if n 0≤ x <2^32-1.
.PP
.I Nfastrand
uses
.I genrandom
to return a uniform
.B "unsigned long
.IR x ,
.if t 0≤ \fIx\fR < \fIval\fR ≤ 2\u\s732\s10\d-1.
.if n 0≤ x < val ≤ 2^32-1.
.SH SOURCE
.B /sys/src/libc/port/*rand.c
.br
.B /sys/src/libc/9sys/truerand.c
.br
.B /sys/src/libsec/port/genrandom.c
.br
.B /sys/src/libsec/port/prng.c
.br
.B /sys/src/libsec/port/*fastrand.c
.SH "SEE ALSO
.IR cons (3),
.IR mp (2)
.SH BUGS
.I Truerand
and
.I ntruerand
maintain a static file descriptor.