ghyp-internal: Internal ghyp functions
In ghyp: A package on the generalized hyperbolic distribution and its special cases
Description
Usage
Details
Author(s)
Description
Internal ghyp functions. These functions are not to be called by the
user.
Usage
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
.abar2chipsi(alpha.bar, lambda, eps = .Machine$double.eps)
.besselM3(lambda = 9/2, x = 2, logvalue = FALSE)
.check.data(data, case = c("uv", "mv"), na.rm = TRUE,
fit = TRUE, dim = NULL)
.check.gig.pars(lambda, chi, psi)
.check.norm.pars(mu, sigma, gamma, dimension)
.check.opt.pars(opt.pars, symmetric)
.fit.ghyp(object, llh = 0, n.iter = 0, converged = FALSE, error.code = 0,
error.message = "", parameter.variance, fitted.params, aic,
trace.pars = list())
.ghyp.model(lambda, chi, psi, gamma)
.t.transform(lambda)
.inv.t.transform(lambda.transf)
.integrate.moment.gig(x, moment = 1, ...)
.integrate.moment.ghypuv(x, moment = 1, ...)
.dghypuv(x, lambda = 1, chi = 1, psi = 1, alpha.bar = NULL,
mu = 1, sigma = 1, gamma = 0, logvalue = FALSE)
.dghypmv(x, lambda, chi, psi, mu, sigma, gamma, logvalue = FALSE)
.mle.default(data, pdf, vars, opt.pars = rep(TRUE, length(vars)),
transform = NULL, se = FALSE,
na.rm = FALSE, silent = FALSE, ...)
.p.default(q, pdf, pdf.args, lower, upper, ...)
.q.default(p, pdf, pdf.args, interval, p.lower, ...)
.test.ghyp(object, case = c("ghyp", "univariate", "multivariate"))
.is.gaussian(object)
.is.univariate(object)
.is.symmetric(object)
.is.student.t(object, symmetric = NULL)
.get.stepAIC.ghyp(stepAIC.obj,
dist = c("ghyp", "hyp", "NIG", "VG", "t", "gauss"),
symmetric = FALSE)
Details
.abar2chipsi
Convert “alpha.bar” to “chi” and “psi” when using the
“alpha.bar” parametrization.
.besselM3
Wrapper function for besselK.
.check.data
This function checks data for consistency.
Only data objects of typ data.frame,
matrix or numeric are accepted.
.check.gig.pars
Some combinations of the GIG parameters are not allowed. This
function checks whether this is the case or not.
.check.norm.pars
This function simply checks if the dimensions match.
.check.opt.pars
When calling the fitting routines
(fit.ghypuv and fit.ghypmv) a named vector
containing the parameters which should not be fitted can be passed.
By default all parameters will be fitted.
.fit.ghyp
This function is called by the functions
fit.ghypuv and fit.ghypmv to create
objects of class mle.ghyp and
mle.ghyp.
.ghyp.model
Check if the parameters denote a special case of the generalized hyperbolic
distribution.
.t.transfrom
Transformation function used in fit.ghypuv for
parameter nu belonging to the Student-t distribution.
.inv.t.transfrom
The inverse of t.transfrom.
.integrate.moment.gig
This function is used when computing the conditional expectation
of a generalized inverse gaussian distribution.
.integrate.moment.ghypuv
This function is used when computing the conditional expectation
of a univariate generalized hyperbolic distribution.
.dghypuv
This function is used during the fitting
procedure. Use dghyp to compute the density of
generalized hyperbolic distribution objects.
.dghypmv
This function is used during the fitting
procedure. Use dghyp to compute the density of
generalized hyperbolic distribution objects.
.mle.default
This function serves as a generic function for
maximum likelihood estimation. It is for internal use only. See
fit.ghypuv which wraps this function.
.p.default
A generic distribution function integrator given a density function.
See pghyp for a wrapper of this
function.
.q.default
A generic quantile function calculator given a density function.
See qghyp for a wrapper of this function.
.test.ghyp
This function tests whether the object is of class
ghyp and sometimes whether it is univariate
or multivariate according to the argument case and states a
corresponding error if not.
.is.gaussian
Tests whether the object is of a gaussian type.
.is.symmetric
Tests whether the object is symmetric.
.is.student.t
Tests whether the object describes a Student-t distribution.
.is.univariate
Tests whether the object is a univariate ghyp-distribution.
.get.stepAIC.ghyp
Returns a specific model from a list returned by stepAIC.ghyp
Author(s)
Wolfgang Breymann, David Luethi
ghyp documentation built on May 2, 2019, 6:09 p.m.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
Description Usage Details Author(s)
Description
Internal ghyp functions. These functions are not to be called by the user.
Usage
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 | .abar2chipsi(alpha.bar, lambda, eps = .Machine$double.eps)
.besselM3(lambda = 9/2, x = 2, logvalue = FALSE)
.check.data(data, case = c("uv", "mv"), na.rm = TRUE,
fit = TRUE, dim = NULL)
.check.gig.pars(lambda, chi, psi)
.check.norm.pars(mu, sigma, gamma, dimension)
.check.opt.pars(opt.pars, symmetric)
.fit.ghyp(object, llh = 0, n.iter = 0, converged = FALSE, error.code = 0,
error.message = "", parameter.variance, fitted.params, aic,
trace.pars = list())
.ghyp.model(lambda, chi, psi, gamma)
.t.transform(lambda)
.inv.t.transform(lambda.transf)
.integrate.moment.gig(x, moment = 1, ...)
.integrate.moment.ghypuv(x, moment = 1, ...)
.dghypuv(x, lambda = 1, chi = 1, psi = 1, alpha.bar = NULL,
mu = 1, sigma = 1, gamma = 0, logvalue = FALSE)
.dghypmv(x, lambda, chi, psi, mu, sigma, gamma, logvalue = FALSE)
.mle.default(data, pdf, vars, opt.pars = rep(TRUE, length(vars)),
transform = NULL, se = FALSE,
na.rm = FALSE, silent = FALSE, ...)
.p.default(q, pdf, pdf.args, lower, upper, ...)
.q.default(p, pdf, pdf.args, interval, p.lower, ...)
.test.ghyp(object, case = c("ghyp", "univariate", "multivariate"))
.is.gaussian(object)
.is.univariate(object)
.is.symmetric(object)
.is.student.t(object, symmetric = NULL)
.get.stepAIC.ghyp(stepAIC.obj,
dist = c("ghyp", "hyp", "NIG", "VG", "t", "gauss"),
symmetric = FALSE)
|
Details
.abar2chipsi
Convert “alpha.bar” to “chi” and “psi” when using the
“alpha.bar” parametrization.
.besselM3
Wrapper function for besselK.
.check.data
This function checks data for consistency.
Only data objects of typ data.frame,
matrix or numeric are accepted.
.check.gig.pars
Some combinations of the GIG parameters are not allowed. This
function checks whether this is the case or not.
.check.norm.pars
This function simply checks if the dimensions match.
.check.opt.pars
When calling the fitting routines
(fit.ghypuv and fit.ghypmv) a named vector
containing the parameters which should not be fitted can be passed.
By default all parameters will be fitted.
.fit.ghyp
This function is called by the functions
fit.ghypuv and fit.ghypmv to create
objects of class mle.ghyp and
mle.ghyp.
.ghyp.model
Check if the parameters denote a special case of the generalized hyperbolic
distribution.
.t.transfrom
Transformation function used in fit.ghypuv for
parameter nu belonging to the Student-t distribution.
.inv.t.transfrom
The inverse of t.transfrom.
.integrate.moment.gig
This function is used when computing the conditional expectation
of a generalized inverse gaussian distribution.
.integrate.moment.ghypuv
This function is used when computing the conditional expectation
of a univariate generalized hyperbolic distribution.
.dghypuv
This function is used during the fitting
procedure. Use dghyp to compute the density of
generalized hyperbolic distribution objects.
.dghypmv
This function is used during the fitting
procedure. Use dghyp to compute the density of
generalized hyperbolic distribution objects.
.mle.default
This function serves as a generic function for
maximum likelihood estimation. It is for internal use only. See
fit.ghypuv which wraps this function.
.p.default
A generic distribution function integrator given a density function.
See pghyp for a wrapper of this
function.
.q.default
A generic quantile function calculator given a density function.
See qghyp for a wrapper of this function.
.test.ghyp
This function tests whether the object is of class
ghyp and sometimes whether it is univariate
or multivariate according to the argument case and states a
corresponding error if not.
.is.gaussian
Tests whether the object is of a gaussian type.
.is.symmetric
Tests whether the object is symmetric.
.is.student.t
Tests whether the object describes a Student-t distribution.
.is.univariate
Tests whether the object is a univariate ghyp-distribution.
.get.stepAIC.ghyp
Returns a specific model from a list returned by stepAIC.ghyp
Author(s)
Wolfgang Breymann, David Luethi
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
Embedding an R snippet on your website
Add the following code to your website.
For more information on customizing the embed code, read Embedding Snippets.