plot.evpost: Plot diagnostics for an evpost object
In paulnorthrop/revdbayes: Ratio-of-Uniforms Sampling for Bayesian Extreme Value Analysis
View source: R/sample_diagnostics.R
plot.evpost R Documentation
Plot diagnostics for an evpost object
Description
plot method for class "evpost". For d = 1 a histogram of the
simulated values is plotted with a the density function superimposed.
The density is normalized crudely using the trapezium rule. For
d = 2 a scatter plot of the simulated values is produced with
density contours superimposed. For d > 2 pairwise plots of the
simulated values are produced.
An interface is also provided to the functions in the bayesplot
package that produce plots of Markov chain Monte Carlo (MCMC)
simulations. See MCMC-overview for details of these
functions.
Usage
## S3 method for class 'evpost'
plot(
x,
y,
...,
n = ifelse(x$d == 1, 1001, 101),
prob = c(0.5, 0.1, 0.25, 0.75, 0.95, 0.99),
ru_scale = FALSE,
rows = NULL,
xlabs = NULL,
ylabs = NULL,
points_par = list(col = 8),
pu_only = FALSE,
add_pu = FALSE,
use_bayesplot = FALSE,
fun_name = c("areas", "intervals", "dens", "hist", "scatter")
)
Arguments
x
An object of class "evpost", a result of a call to
rpost or rpost_rcpp.
y
Not used.
...
Additional arguments passed on to hist, lines,
contour, points or functions from the bayesplot
package.
n
A numeric scalar. Only relevant if x$d = 1 or
x$d = 2. The meaning depends on the value of x$d.
For d = 1 : n + 1 is the number of abscissae in the trapezium
method used to normalize the density.
For d = 2 : an n by n regular grid is used to contour the density.
prob
Numeric vector. Only relevant for d = 2. The contour lines are
drawn such that the respective probabilities that the variable lies
within the contour are approximately prob.
ru_scale
A logical scalar. Should we plot data and density on the
scale used in the ratio-of-uniforms algorithm (TRUE) or on the original
scale (FALSE)?
rows
A numeric scalar. When d > 2 this sets the number of
rows of plots. If the user doesn't provide this then it is set
internally.
xlabs, ylabs
Numeric vectors. When d > 2 these set the labels
on the x and y axes respectively. If the user doesn't provide these then
the column names of the simulated data matrix to be plotted are used.
points_par
A list of arguments to pass to
points to control the appearance of points
depicting the simulated values. Only relevant when d = 2.
pu_only
Only produce a plot relating to the posterior distribution
for the threshold exceedance probability p. Only relevant when
model == "bingp" was used in the call to rpost or
rpost_rcpp.
add_pu
Before producing the plots add the threshold exceedance
probability p to the parameters of the extreme value model. Only
relevant when model == "bingp" was used in the call to
rpost or rpost_rcpp.
use_bayesplot
A logical scalar. If TRUE the bayesplot
function indicated by fun_name is called. In principle any
bayesplot function (that starts with mcmc_) can be called but
this may not always be successful because, for example, some of the
bayesplot functions work only with multiple MCMC simulations.
fun_name
A character scalar. The name of the bayesplot function,
with the initial mcmc_ part removed. See
MCMC-overview and links therein for the names of these
functions. Some examples are given below.
Details
For details of the bayesplot functions available when
use_bayesplot = TRUE see MCMC-overview and
the bayesplot vignette
Plotting MCMC draws.
Value
Nothing is returned unless use_bayesplot = TRUE when a
ggplot object, which can be further customized using the
ggplot2 package, is returned.
References
Jonah Gabry (2016). bayesplot: Plotting for Bayesian
Models. R package version 1.1.0.
https://CRAN.R-project.org/package=bayesplot
See Also
summary.evpost for summaries of the simulated values
and properties of the ratio-of-uniforms algorithm.
MCMC-overview,
MCMC-intervals,
MCMC-distributions.
Examples
## GP posterior
u <- stats::quantile(gom, probs = 0.65)
fp <- set_prior(prior = "flat", model = "gp", min_xi = -1)
gpg <- rpost(n = 1000, model = "gp", prior = fp, thresh = u, data = gom)
plot(gpg)
# Using the bayesplot package
plot(gpg, use_bayesplot = TRUE)
plot(gpg, use_bayesplot = TRUE, pars = "xi", prob = 0.95)
plot(gpg, use_bayesplot = TRUE, fun_name = "intervals", pars = "xi")
plot(gpg, use_bayesplot = TRUE, fun_name = "hist")
plot(gpg, use_bayesplot = TRUE, fun_name = "dens")
plot(gpg, use_bayesplot = TRUE, fun_name = "scatter")
## bin-GP posterior
u <- quantile(gom, probs = 0.65)
fp <- set_prior(prior = "flat", model = "gp", min_xi = -1)
bp <- set_bin_prior(prior = "jeffreys")
npy_gom <- length(gom)/105
bgpg <- rpost(n = 1000, model = "bingp", prior = fp, thresh = u,
data = gom, bin_prior = bp, npy = npy_gom)
plot(bgpg)
plot(bgpg, pu_only = TRUE)
plot(bgpg, add_pu = TRUE)
# Using the bayesplot package
dimnames(bgpg$bin_sim_vals)
plot(bgpg, use_bayesplot = TRUE)
plot(bgpg, use_bayesplot = TRUE, fun_name = "hist")
plot(bgpg, use_bayesplot = TRUE, pars = "p[u]")
paulnorthrop/revdbayes documentation built on March 20, 2024, 1:01 a.m.
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View source: R/sample_diagnostics.R
| plot.evpost | R Documentation |
Plot diagnostics for an evpost object
Description
plot method for class "evpost". For d = 1 a histogram of the
simulated values is plotted with a the density function superimposed.
The density is normalized crudely using the trapezium rule. For
d = 2 a scatter plot of the simulated values is produced with
density contours superimposed. For d > 2 pairwise plots of the
simulated values are produced.
An interface is also provided to the functions in the bayesplot
package that produce plots of Markov chain Monte Carlo (MCMC)
simulations. See MCMC-overview for details of these
functions.
Usage
## S3 method for class 'evpost'
plot(
x,
y,
...,
n = ifelse(x$d == 1, 1001, 101),
prob = c(0.5, 0.1, 0.25, 0.75, 0.95, 0.99),
ru_scale = FALSE,
rows = NULL,
xlabs = NULL,
ylabs = NULL,
points_par = list(col = 8),
pu_only = FALSE,
add_pu = FALSE,
use_bayesplot = FALSE,
fun_name = c("areas", "intervals", "dens", "hist", "scatter")
)
Arguments
x |
An object of class "evpost", a result of a call to
|
y |
Not used. |
... |
Additional arguments passed on to |
n |
A numeric scalar. Only relevant if
|
prob |
Numeric vector. Only relevant for d = 2. The contour lines are drawn such that the respective probabilities that the variable lies within the contour are approximately prob. |
ru_scale |
A logical scalar. Should we plot data and density on the scale used in the ratio-of-uniforms algorithm (TRUE) or on the original scale (FALSE)? |
rows |
A numeric scalar. When |
xlabs, ylabs |
Numeric vectors. When |
points_par |
A list of arguments to pass to
|
pu_only |
Only produce a plot relating to the posterior distribution
for the threshold exceedance probability |
add_pu |
Before producing the plots add the threshold exceedance
probability |
use_bayesplot |
A logical scalar. If |
fun_name |
A character scalar. The name of the bayesplot function,
with the initial |
Details
For details of the bayesplot functions available when
use_bayesplot = TRUE see MCMC-overview and
the bayesplot vignette
Plotting MCMC draws.
Value
Nothing is returned unless use_bayesplot = TRUE when a
ggplot object, which can be further customized using the
ggplot2 package, is returned.
References
Jonah Gabry (2016). bayesplot: Plotting for Bayesian Models. R package version 1.1.0. https://CRAN.R-project.org/package=bayesplot
See Also
summary.evpost for summaries of the simulated values
and properties of the ratio-of-uniforms algorithm.
MCMC-overview,
MCMC-intervals,
MCMC-distributions.
Examples
## GP posterior
u <- stats::quantile(gom, probs = 0.65)
fp <- set_prior(prior = "flat", model = "gp", min_xi = -1)
gpg <- rpost(n = 1000, model = "gp", prior = fp, thresh = u, data = gom)
plot(gpg)
# Using the bayesplot package
plot(gpg, use_bayesplot = TRUE)
plot(gpg, use_bayesplot = TRUE, pars = "xi", prob = 0.95)
plot(gpg, use_bayesplot = TRUE, fun_name = "intervals", pars = "xi")
plot(gpg, use_bayesplot = TRUE, fun_name = "hist")
plot(gpg, use_bayesplot = TRUE, fun_name = "dens")
plot(gpg, use_bayesplot = TRUE, fun_name = "scatter")
## bin-GP posterior
u <- quantile(gom, probs = 0.65)
fp <- set_prior(prior = "flat", model = "gp", min_xi = -1)
bp <- set_bin_prior(prior = "jeffreys")
npy_gom <- length(gom)/105
bgpg <- rpost(n = 1000, model = "bingp", prior = fp, thresh = u,
data = gom, bin_prior = bp, npy = npy_gom)
plot(bgpg)
plot(bgpg, pu_only = TRUE)
plot(bgpg, add_pu = TRUE)
# Using the bayesplot package
dimnames(bgpg$bin_sim_vals)
plot(bgpg, use_bayesplot = TRUE)
plot(bgpg, use_bayesplot = TRUE, fun_name = "hist")
plot(bgpg, use_bayesplot = TRUE, pars = "p[u]")
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