R6 Class Representing PosteriorBSVART

Description

The class PosteriorBSVART contains posterior output and the specification including the last MCMC draw for the bsvar model with t-distributed structural shocks. Note that due to the thinning of the MCMC output the starting value in element last_draw might not be equal to the last draw provided in element posterior.

Public fields

Methods

Public methods

• specify_posterior_bsvar_t$new()

• specify_posterior_bsvar_t$get_posterior()

• specify_posterior_bsvar_t$get_last_draw()

• specify_posterior_bsvar_t$is_normalised()

• specify_posterior_bsvar_t$set_normalised()

• specify_posterior_bsvar_t$clone()

Method new()

Create a new posterior output PosteriorBSVART.

Usage

specify_posterior_bsvar_t$new(specification_bsvar, posterior_bsvar)

Arguments

Returns

A posterior output PosteriorBSVART.

Method get_posterior()

Returns a list containing Bayesian estimation output.

Usage

specify_posterior_bsvar_t$get_posterior()

Examples

data(us_fiscal_lsuw)
specification  = specify_bsvar_t$new(us_fiscal_lsuw)
set.seed(123)
estimate       = estimate(specification, 10)
estimate$get_posterior()

Method get_last_draw()

Returns an object of class BSVART with the last draw of the current MCMC run as the starting value to be passed to the continuation of the MCMC estimation using estimate().

Usage

specify_posterior_bsvar_t$get_last_draw()

Examples

data(us_fiscal_lsuw)

# specify the model and set seed
specification  = specify_bsvar_t$new(us_fiscal_lsuw, p = 4)

# run the burn-in
set.seed(123)
burn_in        = estimate(specification, 10)

# estimate the model
posterior      = estimate(burn_in, 10)

Method is_normalised()

Returns TRUE if the posterior has been normalised using normalise_posterior() and FALSE otherwise.

Usage

specify_posterior_bsvar_t$is_normalised()

Examples

# upload data
data(us_fiscal_lsuw)

# specify the model and set seed
specification  = specify_bsvar_t$new(us_fiscal_lsuw, p = 4)

# estimate the model
set.seed(123)
posterior      = estimate(specification, 10)

# check normalisation status beforehand
posterior$is_normalised()

# normalise the posterior
BB            = posterior$last_draw$starting_values$B      # get the last draw of B
B_hat         = diag((-1) * sign(diag(BB))) %*% BB         # set negative diagonal elements
normalise_posterior(posterior, B_hat)                      # draws in posterior are normalised

# check normalisation status afterwards
posterior$is_normalised()

Method set_normalised()

Sets the private indicator normalised to TRUE.

Usage

specify_posterior_bsvar_t$set_normalised(value)

Arguments

Examples

# This is an internal function that is run while executing normalise_posterior()
# Observe its working by analysing the workflow:

# upload data
data(us_fiscal_lsuw)

# specify the model and set seed
specification  = specify_bsvar_t$new(us_fiscal_lsuw, p = 4)
set.seed(123)

# estimate the model
posterior      = estimate(specification, 10)

# check normalisation status beforehand
posterior$is_normalised()

# normalise the posterior
BB            = posterior$last_draw$starting_values$B      # get the last draw of B
B_hat         = diag(sign(diag(BB))) %*% BB                # set positive diagonal elements
normalise_posterior(posterior, B_hat)                      # draws in posterior are normalised

# check normalisation status afterwards
posterior$is_normalised()

Method clone()

The objects of this class are cloneable with this method.

Usage

specify_posterior_bsvar_t$clone(deep = FALSE)

Arguments

See Also

estimate, specify_bsvar_t

Examples

# This is a function that is used within estimate()
data(us_fiscal_lsuw)
specification  = specify_bsvar_t$new(us_fiscal_lsuw, p = 4)
set.seed(123)
estimate       = estimate(specification, 10)
class(estimate)


## ------------------------------------------------
## Method `specify_posterior_bsvar_t$get_posterior`
## ------------------------------------------------

data(us_fiscal_lsuw)
specification  = specify_bsvar_t$new(us_fiscal_lsuw)
set.seed(123)
estimate       = estimate(specification, 10)
estimate$get_posterior()


## ------------------------------------------------
## Method `specify_posterior_bsvar_t$get_last_draw`
## ------------------------------------------------

data(us_fiscal_lsuw)

# specify the model and set seed
specification  = specify_bsvar_t$new(us_fiscal_lsuw, p = 4)

# run the burn-in
set.seed(123)
burn_in        = estimate(specification, 10)

# estimate the model
posterior      = estimate(burn_in, 10)


## ------------------------------------------------
## Method `specify_posterior_bsvar_t$is_normalised`
## ------------------------------------------------

# upload data
data(us_fiscal_lsuw)

# specify the model and set seed
specification  = specify_bsvar_t$new(us_fiscal_lsuw, p = 4)

# estimate the model
set.seed(123)
posterior      = estimate(specification, 10)

# check normalisation status beforehand
posterior$is_normalised()

# normalise the posterior
BB            = posterior$last_draw$starting_values$B      # get the last draw of B
B_hat         = diag((-1) * sign(diag(BB))) %*% BB         # set negative diagonal elements
normalise_posterior(posterior, B_hat)                      # draws in posterior are normalised

# check normalisation status afterwards
posterior$is_normalised()


## ------------------------------------------------
## Method `specify_posterior_bsvar_t$set_normalised`
## ------------------------------------------------

# This is an internal function that is run while executing normalise_posterior()
# Observe its working by analysing the workflow:

# upload data
data(us_fiscal_lsuw)

# specify the model and set seed
specification  = specify_bsvar_t$new(us_fiscal_lsuw, p = 4)
set.seed(123)

# estimate the model
posterior      = estimate(specification, 10)

# check normalisation status beforehand
posterior$is_normalised()

# normalise the posterior
BB            = posterior$last_draw$starting_values$B      # get the last draw of B
B_hat         = diag(sign(diag(BB))) %*% BB                # set positive diagonal elements
normalise_posterior(posterior, B_hat)                      # draws in posterior are normalised

# check normalisation status afterwards
posterior$is_normalised()