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authorTim Peters <tim.peters@gmail.com>2001-01-24 23:06:53 (GMT)
committerTim Peters <tim.peters@gmail.com>2001-01-24 23:06:53 (GMT)
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Supply long-missing docs for random.seed(). Extensive rewrite of module
intro docs. *************** Fred: check my LaTeX! Also, the docs for whrandom should *************** be moved into Obsolete Modules.
Diffstat (limited to 'Doc/lib/librandom.tex')
-rw-r--r--Doc/lib/librandom.tex73
1 files changed, 52 insertions, 21 deletions
diff --git a/Doc/lib/librandom.tex b/Doc/lib/librandom.tex
index fca6765..76c0685 100644
--- a/Doc/lib/librandom.tex
+++ b/Doc/lib/librandom.tex
@@ -7,37 +7,68 @@
This module implements pseudo-random number generators for various
-distributions: on the real line, there are functions to compute normal
-or Gaussian, lognormal, negative exponential, gamma, and beta
-distributions. For generating distribution of angles, the circular
-uniform and von Mises distributions are available.
-
+distributions.
+For integers, uniform selection from a range.
+For sequences, uniform selection of a random element, and a function to
+generate a random permutation of a list in-place.
+On the real line, there are functions to compute uniform, normal (Gaussian),
+lognormal, negative exponential, gamma, and beta distributions.
+For generating distribution of angles, the circular uniform and
+von Mises distributions are available.
+
+Almost all module functions depend on the basic function
+\function{random()}, which generates a random float uniformly in
+the semi-open range [0.0, 1.0). Python uses the standard Wichmann-Hill
+generator, combining three pure multiplicative congruential
+generators of modulus 30269, 30307 and 30323. Its period (how many
+numbers it generates before repeating the sequence exactly) is
+6,953,607,871,644. While of much higher quality than the \function{rand()}
+function supplied by most C libraries, the theoretical properties
+are much the same as for a single linear congruential generator of
+large modulus.
+
+The functions in this module are not threadsafe: if you want to call these
+functions from multiple threads, you should explicitly serialize the calls.
+Else, because no critical sections are implemented internally, calls
+from different threads may see the same return values.
+
+
+\begin{funcdesc}{seed}{\optional{x}}
+ Initialize the basic random number generator.
+ Optional argument \var{x} can be any hashable object,
+ and the generator is seeded from its hash code.
+ It is not guaranteed that distinct hash codes will produce distinct
+ seeds.
+ If \var{x} is omitted or \code{None},
+ the seed is derived from the current system time.
+ The seed is also set from the current system time when
+ the module is first imported.
+\end{methoddesc}
\begin{funcdesc}{choice}{seq}
- Chooses a random element from the non-empty sequence \var{seq} and
- returns it.
+ Return a random element from the non-empty sequence \var{seq}.
\end{funcdesc}
\begin{funcdesc}{randint}{a, b}
\deprecated{2.0}{Use \function{randrange()} instead.}
- Returns a random integer \var{N} such that
+ Return a random integer \var{N} such that
\code{\var{a} <= \var{N} <= \var{b}}.
\end{funcdesc}
-\begin{funcdesc}{random}{}
- Returns the next random floating point number in the range [0.0,
- 1.0).
-\end{funcdesc}
-
\begin{funcdesc}{randrange}{\optional{start,} stop\optional{, step}}
Return a randomly selected element from \code{range(\var{start},
\var{stop}, \var{step})}. This is equivalent to
- \code{choice(range(\var{start}, \var{stop}, \var{step}))}.
+ \code{choice(range(\var{start}, \var{stop}, \var{step}))},
+ but doesn't actually build a range object.
\versionadded{1.5.2}
\end{funcdesc}
+\begin{funcdesc}{random}{}
+ Return the next random floating point number in the range [0.0, 1.0).
+\end{funcdesc}
+
\begin{funcdesc}{uniform}{a, b}
- Returns a random real number \var{N} such that
+ Return a random real number \var{N} such that
\code{\var{a} <= \var{N} < \var{b}}.
\end{funcdesc}
@@ -59,7 +90,7 @@ any statistics text.
Circular uniform distribution. \var{mean} is the mean angle, and
\var{arc} is the range of the distribution, centered around the mean
angle. Both values must be expressed in radians, and can range
- between 0 and \emph{pi}. Returned values will range between
+ between 0 and \emph{pi}. Returned values range between
\code{\var{mean} - \var{arc}/2} and \code{\var{mean} +
\var{arc}/2}.
\end{funcdesc}
@@ -67,7 +98,7 @@ any statistics text.
\begin{funcdesc}{expovariate}{lambd}
Exponential distribution. \var{lambd} is 1.0 divided by the desired
mean. (The parameter would be called ``lambda'', but that is a
- reserved word in Python.) Returned values will range from 0 to
+ reserved word in Python.) Returned values range from 0 to
positive infinity.
\end{funcdesc}
@@ -86,7 +117,7 @@ any statistics text.
Log normal distribution. If you take the natural logarithm of this
distribution, you'll get a normal distribution with mean \var{mu}
and standard deviation \var{sigma}. \var{mu} can have any value,
- and \var{sigma} must be greater than zero.
+ and \var{sigma} must be greater than zero.
\end{funcdesc}
\begin{funcdesc}{normalvariate}{mu, sigma}
@@ -127,8 +158,8 @@ implements a standard useful algorithm:
long sequence can never be generated.
\end{funcdesc}
-
\begin{seealso}
- \seemodule{whrandom}{The standard Python pseudo-random number
- generator.}
+ \seetext{Wichmann, B. A. \& Hill, I. D., ``Algorithm AS 183:
+ An efficient and portable pseudo-random number generator'',
+ \citetitle{Applied Statistics} 31 (1982) 188-190.}
\end{seealso}