Hyper-class: Class "Hyper"

Description

The hypergeometric distribution is used for sampling without replacement. The density of this distribution with parameters m, n and k (named $Np$, $N-Np$, and $n$, respectively in the reference below) is given by $$ p(x) = \left. {m \choose x}{n \choose k-x} \right/ {m+n \choose k}% $$ for $x = 0, \ldots, k$. C.f. rhyper

Arguments

Objects from the Class

Objects can be created by calls of the form Hyper(m, n, k). This object is a hypergeometric distribution.

Slots

img: Object of class "Naturals": The space of the image of this distribution has got dimension 1 and the name "Natural Space".
param: Object of class "HyperParameter": the parameter of this distribution (m, n, k), declared at its instantiation
r: Object of class "function": generates random numbers (calls function rhyper)
d: Object of class "function": density function (calls function dhyper)
p: Object of class "function": cumulative function (calls function phyper)
q: Object of class "function": inverse of the cumulative function (calls function qhyper). The $\alpha$-quantile is defined as the smallest value $x$ such that $p(x) \ge \alpha]$, where $p$ is the cumulative function.
support:: Object of class "numeric": a (sorted) vector containing the support of the discrete density function
.withArith: logical: used internally to issue warnings as to interpretation of arithmetics
.withSim: logical: used internally to issue warnings as to accuracy
.logExact: logical: used internally to flag the case where there are explicit formulae for the log version of density, cdf, and quantile function
.lowerExact: logical: used internally to flag the case where there are explicit formulae for the lower tail version of cdf and quantile function
Symmetry: object of class "DistributionSymmetry"; used internally to avoid unnecessary calculations.

Extends

Class "DiscreteDistribution", directly.
Class "UnivariateDistribution", by class "DiscreteDistribution".
Class "Distribution", by class "DiscreteDistribution".

Methods

initialize: signature(.Object = "Hyper"): initialize method
m: signature(object = "Hyper"): returns the slot m of the parameter of the distribution
m<-: signature(object = "Hyper"): modifies the slot m of the parameter of the distribution
n: signature(object = "Hyper"): returns the slot n of the parameter of the distribution
n<-: signature(object = "Hyper"): modifies the slot n of the parameter of the distribution
k: signature(object = "Hyper"): returns the slot k of the parameter of the distribution
k<-: signature(object = "Hyper"): modifies the slot k of the parameter of the distribution

Author

Thomas Stabla statho3@web.de,
Florian Camphausen fcampi@gmx.de,
Peter Ruckdeschel peter.ruckdeschel@uni-oldenburg.de,
Matthias Kohl Matthias.Kohl@stamats.de

Examples

Run this code

H <- Hyper(m=3,n=3,k=3) # H is a hypergeometric distribution with m=3,n=3,k=3.
r(H)(1) # one random number generated from this distribution, e.g. 2
d(H)(1) # Density of this distribution is  0.45 for x=1.
p(H)(1) # Probability that x<1 is 0.5.
q(H)(.1) # x=1 is the smallest value x such that p(H)(x)>=0.1.
## in RStudio or Jupyter IRKernel, use q.l(.)(.) instead of q(.)(.)
m(H) # m of this distribution is 3.
m(H) <- 2 # m of this distribution is now 2.

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