%do% and %dopar% are binary operators that operate
on a foreach object and an R expression.
The expression, ex, is evaluated multiple times in an environment
that is created by the foreach object, and that environment is
modified for each evaluation as specified by the foreach object.
%do% evaluates the expression sequentially, while %dopar%
evalutes it in parallel.
The results of evaluating ex are returned as a list by default,
but this can be modified by means of the .combine argument.
one or more arguments that control how ex is
evaluated. Named arguments specify the name and values of variables
to be defined in the evaluation environment.
An unnamed argument can be used to specify the number of times that
ex should be evaluated.
At least one argument must be specified in order to define the
number of times ex should be executed.
.combine
function that is used to process the tasks results as
they generated. This can be specified as either a function or
a non-empty character string naming the function.
Specifying 'c' is useful for concatenating the results into
a vector, for example. The values 'cbind' and 'rbind' can combine
vectors into a matrix. The values '+' and '*' can be used to
process numeric data.
By default, the results are returned in a list.
.init
initial value to pass as the first argument of the
.combine function.
This should not be specified unless .combine is also specified.
.final
function of one argument that is called to return final result.
.inorder
logical flag indicating whether the .combine
function requires the task results to be combined in the same order
that they were submitted. If the order is not important, then it
setting .inorder to FALSE can give improved performance.
The default value is TRUE.
.multicombine
logical flag indicating whether the .combine
function can accept more than two arguments.
If an arbitrary .combine function is specified, by default,
that function will always be called with two arguments.
If it can take more than two arguments, then setting .multicombine
to TRUE could improve the performance.
The default value is FALSE unless the .combine
function is cbind, rbind, or c, which are known
to take more than two arguments.
.maxcombine
maximum number of arguments to pass to the combine function.
This is only relevant if .multicombine is TRUE.
.errorhandling
specifies how a task evalution error should be handled.
If the value is "stop", then execution will be stopped via
the stop function if an error occurs.
If the value is "remove", the result for that task will not be
returned, or passed to the .combine function.
If it is "pass", then the error object generated by task evaluation
will be included with the rest of the results. It is assumed that
the combine function (if specified) will be able to deal with the
error object.
The default value is "stop".
.packages
character vector of packages that the tasks depend on.
If ex requires a R package to be loaded, this option
can be used to load that package on each of the workers.
Ignored when used with %do%.
.export
character vector of variables to export.
This can be useful when accessing a variable that isn't defined in the
current environment.
The default value in NULL.
.noexport
character vector of variables to exclude from exporting.
This can be useful to prevent variables from being exported that aren't
actually needed, perhaps because the symbol is used in a model formula.
The default value in NULL.
.verbose
logical flag enabling verbose messages. This can be
very useful for trouble shooting.
obj
foreach object used to control the evaluation
of ex.
e1
foreach object to merge.
e2
foreach object to merge.
ex
the R expression to evaluate.
cond
condition to evaluate.
n
number of times to evaluate the R expression.
Details
The foreach and %do%/%dopar% operators provide
a looping construct that can be viewed as a hybrid of the standard
for loop and lapply function.
It looks similar to the for loop, and it evaluates an expression,
rather than a function (as in lapply), but it's purpose is to
return a value (a list, by default), rather than to cause side-effects.
This faciliates parallelization, but looks more natural to people that
prefer for loops to lapply.
The %:% operator is the nesting operator, used for creating
nested foreach loops. Type vignette("nested") at the R prompt for
more details.
Parallel computation depends upon a parallel backend that must be
registered before performing the computation. The parallel backends available
will be system-specific, but include doParallel, which uses R's built-in
parallel package, doMC, which uses the multicore package,
and doSNOW. Each parallel backend has a specific registration function,
such as registerDoParallel or registerDoSNOW.
The times function is a simple convenience function that calls
foreach. It is useful for evaluating an R expression multiple
times when there are no varying arguments. This can be convenient for
resampling, for example.
See Also
iter
Examples
# equivalent to rnorm(3)
times(3) %do% rnorm(1)
# equivalent to lapply(1:3, sqrt)
foreach(i=1:3) %do%
sqrt(i)
# equivalent to colMeans(m)
m <- matrix(rnorm(9), 3, 3)
foreach(i=1:ncol(m), .combine=c) %do%
mean(m[,i])
# normalize the rows of a matrix in parallel, with parenthesis used to
# force proper operator precedence
# Need to register a parallel backend before this example will run
# in parallel
foreach(i=1:nrow(m), .combine=rbind) %dopar%
(m[i,] / mean(m[i,]))
# simple (and inefficient) parallel matrix multiply
library(iterators)
a <- matrix(1:16, 4, 4)
b <- t(a)
foreach(b=iter(b, by='col'), .combine=cbind) %dopar%
(a %*% b)
# split a data frame by row, and put them back together again without
# changing anything
d <- data.frame(x=1:10, y=rnorm(10))
s <- foreach(d=iter(d, by='row'), .combine=rbind) %dopar% d
identical(s, d)
# a quick sort function
qsort <- function(x) {
n <- length(x)
if (n == 0) {
x
} else {
p <- sample(n, 1)
smaller <- foreach(y=x[-p], .combine=c) %:% when(y <= x[p]) %do% y
larger <- foreach(y=x[-p], .combine=c) %:% when(y > x[p]) %do% y
c(qsort(smaller), x[p], qsort(larger))
}
}
qsort(runif(12))