jags: Run 'JAGS' from R
In suyusung/R2jags: Using R to Run 'JAGS'
jags R Documentation
Run ‘JAGS’ from R
Description
The jags function takes data and starting values as input. It
automatically writes a jags script, calls the model, and
saves the simulations for easy access in R.
Usage
jags(data, inits, parameters.to.save, model.file="model.bug",
n.chains=3, n.iter=2000, n.burnin=floor(n.iter/2),
n.thin=max(1, floor((n.iter - n.burnin) / 1000)),
DIC=TRUE, working.directory=NULL, jags.seed = 123,
refresh = n.iter/50, progress.bar = "text", digits=5,
RNGname = c("Wichmann-Hill", "Marsaglia-Multicarry",
"Super-Duper", "Mersenne-Twister"),
jags.module = c("glm","dic"), quiet = FALSE
)
jags.parallel(data, inits, parameters.to.save, model.file = "model.bug",
n.chains = 2, n.iter = 2000, n.burnin = floor(n.iter/2),
n.thin = max(1, floor((n.iter - n.burnin)/1000)),
n.cluster= n.chains, DIC = TRUE,
working.directory = NULL, jags.seed = 123, digits=5,
RNGname = c("Wichmann-Hill", "Marsaglia-Multicarry",
"Super-Duper", "Mersenne-Twister"),
jags.module = c("glm","dic"),
export_obj_names=NULL,
envir = .GlobalEnv
)
jags2(data, inits, parameters.to.save, model.file="model.bug",
n.chains=3, n.iter=2000, n.burnin=floor(n.iter/2),
n.thin=max(1, floor((n.iter - n.burnin) / 1000)),
DIC=TRUE, jags.path="",
working.directory=NULL, clearWD=TRUE,
refresh = n.iter/50)
Arguments
data
(1) a vector or list of the names of the data objects used by
the model, (2) a (named) list of the data objects themselves, or
(3) the name of a "dump" format file containing the data objects,
which must end in ".txt", see example below for details.
inits
a list with n.chains elements; each element of the
list is itself a list of starting values for the BUGS model,
or a function creating (possibly random) initial values. If inits is
NULL, JAGS will generate initial values for parameters.
parameters.to.save
character vector of the names of the
parameters to save which should be monitored.
model.file
file containing the model written in BUGS
code. Alternatively, as in R2WinBUGS, model.file can be an R
function that contains a BUGS model that is written to a
temporary model file (see tempfile) using write.model
n.chains
number of Markov chains (default: 3)
n.iter
number of total iterations per chain (including burn in;
default: 2000)
n.burnin
length of burn in, i.e. number of iterations to
discard at the beginning. Default is n.iter/2, that is,
discarding the first half of the simulations. If n.burnin is 0,
jags() will run 100 iterations for adaption.
n.cluster
number of clusters to use to run parallel chains.
Default equals n.chains.
n.thin
thinning rate. Must be a positive integer. Set
n.thin > 1 to save memory and computation time if
n.iter is large. Default is max(1, floor(n.chains *
(n.iter-n.burnin) / 1000)) which will only thin if there are at
least 2000 simulations.
DIC
logical; if TRUE (default), compute deviance, pD,
and DIC. The rule pD=var(deviance) / 2 is used.
working.directory
sets working directory during execution of
this function; This should be the directory where model file is.
jags.seed
random seed for JAGS, default is 123. This function is used for jags.parallell() and does not work for jags(). Use set.seed() instead if you want to produce identical result with jags()
.
jags.path
directory that contains the JAGS executable.
The default is “”.
clearWD
indicating whether the files ‘data.txt’,
‘inits[1:n.chains].txt’, ‘codaIndex.txt’, ‘jagsscript.txt’,
and ‘CODAchain[1:nchains].txt’ should be removed after jags has
finished, default=TRUE.
refresh
refresh frequency for progress bar, default is n.iter/50
progress.bar
type of progress bar. Possible values are “text”,
“gui”, and “none”. Type “text” is displayed
on the R console. Type “gui” is a graphical progress bar
in a new window. The progress bar is suppressed if progress.bar is
“none”
digits
as in write.model in the R2WinBUGS package: number of significant digits used for
BUGS input, see formatC. Only used if specifying a BUGS model as an R function.
RNGname
the name for random number generator used in JAGS. There are four RNGS
supplied by the base moduale in JAGS: Wichmann-Hill, Marsaglia-Multicarry,
Super-Duper, Mersenne-Twister
jags.module
the vector of jags modules to be loaded. Default are “glm” and “dic”. Input NULL if you don't want to load any jags module.
export_obj_names
character vector of objects to export to the clusters.
envir
default is .GlobalEnv
quiet
Logical, whether to suppress stdout in jags.model().
Details
To run:
Write a JAGS model in an ASCII file.
Go into R.
Prepare the inputs for the jags function and run it (see
Example section).
The model will now run in JAGS. It might take awhile. You
will see things happening in the R console.
Author(s)
Yu-Sung Su suyusung@tsinghua.edu.cn,
Masanao Yajima yajima@bu.edu
References
Plummer, Martyn (2003)
“JAGS: A program for analysis of Bayesian graphical models using Gibbs sampling.”
https://www.r-project.org/conferences/DSC-2003/Proceedings/Plummer.pdf.
Gelman, A., Carlin, J. B., Stern, H.S., Rubin, D.B. (2003)
Bayesian Data Analysis, 2nd edition, CRC Press.
Sibylle Sturtz and Uwe Ligges and Andrew Gelman. (2005).
“R2WinBUGS: A Package for Running WinBUGS from R.”
Journal of Statistical Software 3 (12): 1–6.
Examples
# An example model file is given in:
model.file <- system.file(package="R2jags", "model", "schools.txt")
# Let's take a look:
file.show(model.file)
# you can also write BUGS model as a R function, see below:
#=================#
# initialization #
#=================#
# data
J <- 8.0
y <- c(28.4,7.9,-2.8,6.8,-0.6,0.6,18.0,12.2)
sd <- c(14.9,10.2,16.3,11.0,9.4,11.4,10.4,17.6)
jags.data <- list("y","sd","J")
jags.params <- c("mu","sigma","theta")
jags.inits <- function(){
list("mu"=rnorm(1),"sigma"=runif(1),"theta"=rnorm(J))
}
## You can input data in 4 ways
## 1) data as list of character
jagsfit <- jags(data=list("y","sd","J"), inits=jags.inits, jags.params,
n.iter=10, model.file=model.file)
## 2) data as character vector of names
jagsfit <- jags(data=c("y","sd","J"), inits=jags.inits, jags.params,
n.iter=10, model.file=model.file)
## 3) data as named list
jagsfit <- jags(data=list(y=y,sd=sd,J=J), inits=jags.inits, jags.params,
n.iter=10, model.file=model.file)
## 4) data as a file
fn <- "tmpbugsdata.txt"
dump(c("y","sd","J"), file=fn)
jagsfit <- jags(data=fn, inits=jags.inits, jags.params,
n.iter=10, model.file=model.file)
unlink("tmpbugsdata.txt")
## You can write bugs model in R as a function
schoolsmodel <- function() {
for (j in 1:J){ # J=8, the number of schools
y[j] ~ dnorm (theta[j], tau.y[j]) # data model: the likelihood
tau.y[j] <- pow(sd[j], -2) # tau = 1/sigma^2
}
for (j in 1:J){
theta[j] ~ dnorm (mu, tau) # hierarchical model for theta
}
tau <- pow(sigma, -2) # tau = 1/sigma^2
mu ~ dnorm (0.0, 1.0E-6) # noninformative prior on mu
sigma ~ dunif (0, 1000) # noninformative prior on sigma
}
jagsfit <- jags(data=jags.data, inits=jags.inits, jags.params,
n.iter=10, model.file=schoolsmodel)
#===============================#
# RUN jags and postprocessing #
#===============================#
jagsfit <- jags(data=jags.data, inits=jags.inits, jags.params,
n.iter=5000, model.file=model.file)
# Run jags parallely, no progress bar. R may be frozen for a while,
# Be patient. Currenlty update afterward does not run parallelly
#
jagsfit.p <- jags.parallel(data=jags.data, inits=jags.inits, jags.params,
n.iter=5000, model.file=model.file)
# display the output
print(jagsfit)
plot(jagsfit)
# traceplot
traceplot(jagsfit.p)
traceplot(jagsfit)
# or to use some plots in coda
# use as.mcmmc to convert rjags object into mcmc.list
jagsfit.mcmc <- as.mcmc(jagsfit.p)
jagsfit.mcmc <- as.mcmc(jagsfit)
## now we can use the plotting methods from coda
#require(lattice)
#xyplot(jagsfit.mcmc)
#densityplot(jagsfit.mcmc)
# if the model does not converge, update it!
jagsfit.upd <- update(jagsfit, n.iter=100)
print(jagsfit.upd)
print(jagsfit.upd, intervals=c(0.025, 0.5, 0.975))
plot(jagsfit.upd)
# before update parallel jags object, do recompile it
recompile(jagsfit.p)
jagsfit.upd <- update(jagsfit.p, n.iter=100)
# or auto update it until it converges! see ?autojags for details
# recompile(jagsfit.p)
jagsfit.upd <- autojags(jagsfit.p)
jagsfit.upd <- autojags(jagsfit)
# to get DIC or specify DIC=TRUE in jags() or do the following#
dic.samples(jagsfit.upd$model, n.iter=1000, type="pD")
# attach jags object into search path see "attach.bugs" for details
attach.jags(jagsfit.upd)
# this will show a 3-way array of the bugs.sim object, for example:
mu
# detach jags object into search path see "attach.bugs" for details
detach.jags()
# to pick up the last save session
# for example, load("RWorkspace.Rdata")
recompile(jagsfit)
jagsfit.upd <- update(jagsfit, n.iter=100)
recompile(jagsfit.p)
jagsfit.upd <- update(jagsfit, n.iter=100)
#=============#
# using jags2 #
#=============#
## jags can be run and produces coda files, but cannot be updated once it's done
## You may need to edit "jags.path" to make this work,
## also you need a write access in the working directory:
## e.g. setwd("d:/")
## NOT RUN HERE
## Not run:
jagsfit <- jags2(data=jags.data, inits=jags.inits, jags.params,
n.iter=5000, model.file=model.file)
print(jagsfit)
plot(jagsfit)
# or to use some plots in coda
# use as.mcmmc to convert rjags object into mcmc.list
jagsfit.mcmc <- as.mcmc.list(jagsfit)
traceplot(jagsfit.mcmc)
#require(lattice)
#xyplot(jagsfit.mcmc)
#densityplot(jagsfit.mcmc)
## End(Not run)
suyusung/R2jags documentation built on April 5, 2024, 6:20 a.m.
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| jags | R Documentation |
Run ‘JAGS’ from R
Description
The jags function takes data and starting values as input. It
automatically writes a jags script, calls the model, and
saves the simulations for easy access in R.
Usage
jags(data, inits, parameters.to.save, model.file="model.bug",
n.chains=3, n.iter=2000, n.burnin=floor(n.iter/2),
n.thin=max(1, floor((n.iter - n.burnin) / 1000)),
DIC=TRUE, working.directory=NULL, jags.seed = 123,
refresh = n.iter/50, progress.bar = "text", digits=5,
RNGname = c("Wichmann-Hill", "Marsaglia-Multicarry",
"Super-Duper", "Mersenne-Twister"),
jags.module = c("glm","dic"), quiet = FALSE
)
jags.parallel(data, inits, parameters.to.save, model.file = "model.bug",
n.chains = 2, n.iter = 2000, n.burnin = floor(n.iter/2),
n.thin = max(1, floor((n.iter - n.burnin)/1000)),
n.cluster= n.chains, DIC = TRUE,
working.directory = NULL, jags.seed = 123, digits=5,
RNGname = c("Wichmann-Hill", "Marsaglia-Multicarry",
"Super-Duper", "Mersenne-Twister"),
jags.module = c("glm","dic"),
export_obj_names=NULL,
envir = .GlobalEnv
)
jags2(data, inits, parameters.to.save, model.file="model.bug",
n.chains=3, n.iter=2000, n.burnin=floor(n.iter/2),
n.thin=max(1, floor((n.iter - n.burnin) / 1000)),
DIC=TRUE, jags.path="",
working.directory=NULL, clearWD=TRUE,
refresh = n.iter/50)
Arguments
data |
(1) a vector or list of the names of the data objects used by the model, (2) a (named) list of the data objects themselves, or (3) the name of a "dump" format file containing the data objects, which must end in ".txt", see example below for details. |
inits |
a list with |
parameters.to.save |
character vector of the names of the parameters to save which should be monitored. |
model.file |
file containing the model written in |
n.chains |
number of Markov chains (default: 3) |
n.iter |
number of total iterations per chain (including burn in; default: 2000) |
n.burnin |
length of burn in, i.e. number of iterations to
discard at the beginning. Default is |
n.cluster |
number of clusters to use to run parallel chains. Default equals n.chains. |
n.thin |
thinning rate. Must be a positive integer. Set
|
DIC |
logical; if |
working.directory |
sets working directory during execution of this function; This should be the directory where model file is. |
jags.seed |
random seed for |
.
jags.path |
directory that contains the |
clearWD |
indicating whether the files ‘data.txt’,
‘inits[1:n.chains].txt’, ‘codaIndex.txt’, ‘jagsscript.txt’,
and ‘CODAchain[1:nchains].txt’ should be removed after |
refresh |
refresh frequency for progress bar, default is |
progress.bar |
type of progress bar. Possible values are “text”,
“gui”, and “none”. Type “text” is displayed
on the R console. Type “gui” is a graphical progress bar
in a new window. The progress bar is suppressed if |
digits |
as in |
RNGname |
the name for random number generator used in JAGS. There are four RNGS
supplied by the base moduale in JAGS: |
jags.module |
the vector of jags modules to be loaded. Default are “glm” and “dic”. Input NULL if you don't want to load any jags module. |
export_obj_names |
character vector of objects to export to the clusters. |
envir |
default is .GlobalEnv |
quiet |
Logical, whether to suppress stdout in |
Details
To run:
Write a
JAGSmodel in an ASCII file.Go into R.
Prepare the inputs for the
jagsfunction and run it (see Example section).The model will now run in
JAGS. It might take awhile. You will see things happening in the R console.
Author(s)
Yu-Sung Su suyusung@tsinghua.edu.cn, Masanao Yajima yajima@bu.edu
References
Plummer, Martyn (2003) “JAGS: A program for analysis of Bayesian graphical models using Gibbs sampling.” https://www.r-project.org/conferences/DSC-2003/Proceedings/Plummer.pdf.
Gelman, A., Carlin, J. B., Stern, H.S., Rubin, D.B. (2003) Bayesian Data Analysis, 2nd edition, CRC Press.
Sibylle Sturtz and Uwe Ligges and Andrew Gelman. (2005). “R2WinBUGS: A Package for Running WinBUGS from R.” Journal of Statistical Software 3 (12): 1–6.
Examples
# An example model file is given in:
model.file <- system.file(package="R2jags", "model", "schools.txt")
# Let's take a look:
file.show(model.file)
# you can also write BUGS model as a R function, see below:
#=================#
# initialization #
#=================#
# data
J <- 8.0
y <- c(28.4,7.9,-2.8,6.8,-0.6,0.6,18.0,12.2)
sd <- c(14.9,10.2,16.3,11.0,9.4,11.4,10.4,17.6)
jags.data <- list("y","sd","J")
jags.params <- c("mu","sigma","theta")
jags.inits <- function(){
list("mu"=rnorm(1),"sigma"=runif(1),"theta"=rnorm(J))
}
## You can input data in 4 ways
## 1) data as list of character
jagsfit <- jags(data=list("y","sd","J"), inits=jags.inits, jags.params,
n.iter=10, model.file=model.file)
## 2) data as character vector of names
jagsfit <- jags(data=c("y","sd","J"), inits=jags.inits, jags.params,
n.iter=10, model.file=model.file)
## 3) data as named list
jagsfit <- jags(data=list(y=y,sd=sd,J=J), inits=jags.inits, jags.params,
n.iter=10, model.file=model.file)
## 4) data as a file
fn <- "tmpbugsdata.txt"
dump(c("y","sd","J"), file=fn)
jagsfit <- jags(data=fn, inits=jags.inits, jags.params,
n.iter=10, model.file=model.file)
unlink("tmpbugsdata.txt")
## You can write bugs model in R as a function
schoolsmodel <- function() {
for (j in 1:J){ # J=8, the number of schools
y[j] ~ dnorm (theta[j], tau.y[j]) # data model: the likelihood
tau.y[j] <- pow(sd[j], -2) # tau = 1/sigma^2
}
for (j in 1:J){
theta[j] ~ dnorm (mu, tau) # hierarchical model for theta
}
tau <- pow(sigma, -2) # tau = 1/sigma^2
mu ~ dnorm (0.0, 1.0E-6) # noninformative prior on mu
sigma ~ dunif (0, 1000) # noninformative prior on sigma
}
jagsfit <- jags(data=jags.data, inits=jags.inits, jags.params,
n.iter=10, model.file=schoolsmodel)
#===============================#
# RUN jags and postprocessing #
#===============================#
jagsfit <- jags(data=jags.data, inits=jags.inits, jags.params,
n.iter=5000, model.file=model.file)
# Run jags parallely, no progress bar. R may be frozen for a while,
# Be patient. Currenlty update afterward does not run parallelly
#
jagsfit.p <- jags.parallel(data=jags.data, inits=jags.inits, jags.params,
n.iter=5000, model.file=model.file)
# display the output
print(jagsfit)
plot(jagsfit)
# traceplot
traceplot(jagsfit.p)
traceplot(jagsfit)
# or to use some plots in coda
# use as.mcmmc to convert rjags object into mcmc.list
jagsfit.mcmc <- as.mcmc(jagsfit.p)
jagsfit.mcmc <- as.mcmc(jagsfit)
## now we can use the plotting methods from coda
#require(lattice)
#xyplot(jagsfit.mcmc)
#densityplot(jagsfit.mcmc)
# if the model does not converge, update it!
jagsfit.upd <- update(jagsfit, n.iter=100)
print(jagsfit.upd)
print(jagsfit.upd, intervals=c(0.025, 0.5, 0.975))
plot(jagsfit.upd)
# before update parallel jags object, do recompile it
recompile(jagsfit.p)
jagsfit.upd <- update(jagsfit.p, n.iter=100)
# or auto update it until it converges! see ?autojags for details
# recompile(jagsfit.p)
jagsfit.upd <- autojags(jagsfit.p)
jagsfit.upd <- autojags(jagsfit)
# to get DIC or specify DIC=TRUE in jags() or do the following#
dic.samples(jagsfit.upd$model, n.iter=1000, type="pD")
# attach jags object into search path see "attach.bugs" for details
attach.jags(jagsfit.upd)
# this will show a 3-way array of the bugs.sim object, for example:
mu
# detach jags object into search path see "attach.bugs" for details
detach.jags()
# to pick up the last save session
# for example, load("RWorkspace.Rdata")
recompile(jagsfit)
jagsfit.upd <- update(jagsfit, n.iter=100)
recompile(jagsfit.p)
jagsfit.upd <- update(jagsfit, n.iter=100)
#=============#
# using jags2 #
#=============#
## jags can be run and produces coda files, but cannot be updated once it's done
## You may need to edit "jags.path" to make this work,
## also you need a write access in the working directory:
## e.g. setwd("d:/")
## NOT RUN HERE
## Not run:
jagsfit <- jags2(data=jags.data, inits=jags.inits, jags.params,
n.iter=5000, model.file=model.file)
print(jagsfit)
plot(jagsfit)
# or to use some plots in coda
# use as.mcmmc to convert rjags object into mcmc.list
jagsfit.mcmc <- as.mcmc.list(jagsfit)
traceplot(jagsfit.mcmc)
#require(lattice)
#xyplot(jagsfit.mcmc)
#densityplot(jagsfit.mcmc)
## End(Not run)
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