R is fun language for computer programming and statistics, but it’s
not without it’s quirks. For instance, R generally has a recursive
strategy when attempting to find objects within functions. If an object
can’t be found, R will start to look outside the function’s environment
to see if the object can be located there, and if not, look within even
higher-level environments… This recursive search continues until it
searches for the object in the user workspace/Global environment, and
only when the object can’t be found here will an error be thrown. This
is a strange feature to most programmers who come from other languages,
and when writing simulations may cause some severely unwanted issues.
This tutorial demonstrates how to make sure all required user-defined
objects are visible to SimDesign
.
To demonstrate the issue, let’s define two objects and a function which uses these objects.
When evaluated, these objects are visible to the user, and can be
seen by typing in the R console by typing ls()
. Functions
which do not define objects with the same name will also be able to
locate these values.
## [1] 30
This behavior is indeed a bit strange, but it’s one of R’s quirks.
Unfortunately, when running code in parallel across different cores
these objects will not be visible, and therefore must be
exported using other methods (e.g., in the parallel
package
this is done with clusterExport()
).
## Error in checkForRemoteErrors(val) :
## 2 nodes produced errors; first error: object 'obj1' not found
Exporting the objects to the cluster fixes the issue.
## [1] 30 30 30 30
The same reasoning above applies to functions defined in the R
workspace as well, including functions defined within external R
packages. Hence, in order to use functions from other packages they must
either be explicitly loaded with require()
or
library()
within the distributed code, or referenced via
their Namespace with the ::
operator (e.g.,
mvtnorm::rmvtnorm()
).
In order to make objects safely visible in SimDesign
the
strategy is very simple: wrap all desired objects into a named list (or
other object), and pass this to the fixed_objects
argument.
From here, elements can be indexed using the $
operator or
with()
function, or whatever other method may be
convenient. Note, however, this is only required for defined
objects not functions — SimDesign
automatically makes user-defined functions available across all
nodes.
As an aside, an alternative approach is simply to define/source the
objects within the respective SimDesign
functions; that way
they will clearly be visible at runtime. The following
fixed_objects
approach is really only useful when the
defined objects contain a large amount of code.
library(SimDesign)
#SimFunctions(comments = FALSE)
### Define design conditions and number of replications
Design <- createDesign(N = c(10, 20, 30))
replications <- 1000
# define custom functions and objects (or use source() to read these in from an external file)
SD <- 2
my_gen_fun <- function(n, sd) rnorm(n, sd = sd)
my_analyse_fun <- function(x) c(p = t.test(x)$p.value)
fixed_objects <- list(SD=SD)
#---------------------------------------------------------------------------
Generate <- function(condition, fixed_objects) {
Attach(condition) # make condition names available (e.g., N)
# further, can use with() to use 'SD' directly instead of 'fixed_objects$SD'
ret <- with(fixed_objects, my_gen_fun(N, sd=SD))
ret
}
Analyse <- function(condition, dat, fixed_objects) {
ret <- my_analyse_fun(dat)
ret
}
Summarise <- function(condition, results, fixed_objects) {
ret <- EDR(results, alpha = .05)
ret
}
#---------------------------------------------------------------------------
### Run the simulation
res <- runSimulation(Design, replications, verbose=FALSE, fixed_objects=fixed_objects,
generate=Generate, analyse=Analyse, summarise=Summarise, debug='none')
res
## # A tibble: 3 × 6
## N p REPLICATIONS SIM_TIME SEED COMPLETED
## <dbl> <dbl> <dbl> <chr> <int> <chr>
## 1 10 0.044 1000 0.21s 488349520 Thu Nov 14 23:23:26 2024
## 2 20 0.06 1000 0.22s 469344150 Thu Nov 14 23:23:26 2024
## 3 30 0.054 1000 0.22s 1550099436 Thu Nov 14 23:23:27 2024
By placing objects in a list and passing this to
fixed_objects
, the objects are safely exported to all
relevant functions. Furthermore, running this code in parallel will also
be valid as a consequence (see below) because all objects are properly
exported to each core.
res <- runSimulation(Design, replications, verbose=FALSE, fixed_objects=fixed_objects,
generate=Generate, analyse=Analyse, summarise=Summarise, debug='none',
parallel = TRUE)
Again, remember that this is only required for R objects, NOT for user-defined functions!