coro
Overview
coro implements coroutines for R, i.e. functions that can be suspended and resumed later on. There are two kinds:
- Async functions, which make it straightforward to program concurrently
- Generators for iterating over complex sequences
Supported features:
- Suspending within loops and if/else branches
- Suspending within
tryCatch() on.exit()expressions and stack-based cleanup such as provided bylocal_functions in the withr package- Step-debugging and
browser()within coroutines
Compatibility with:
- Python iterators from the reticulate package
- Async operations from the promises package
- Parallel computations from the future package
Attach the package to follow the examples:
library(coro)Async/await functions
Concurrent programming is made straightforward by async-await functions.
Whenever you are waiting for a result that may take a while (downloading
a file, computing a value in an external process), use await(). The
argument to await() must return a promise from the
promises package.
Concurrent code based on promises can quickly become hard to write and follow. In the following artificial example, we wait for a download to complete, then decide to launch a computation in an external process depending on a property of the downloaded data. We also handle some errors specifically.
my_async <- function() {
async_download() %>%
then(function(data) {
if (ncol(data) > 10) {
then(future::future(fib(30)), function(fib) {
data / fib
})
} else {
data
}
}, onRejected = function(err) {
if (inherits(err, "download_error")) {
NULL
} else {
stop(err)
}
})
}Rewriting this function with async/await greatly simplifies the code:
my_async <- async(function() {
data <- tryCatch(
await(async_download()),
download_error = function(err) NULL
)
if (is.null(data)) {
return(NULL)
}
if (ncol(data) > 10) {
fib <- await(future::future(fib(30)))
data <- data /fib
}
data
})Generators
Generators are based on a simple iteration protocol:
- Iterators are functions.
- They can be advanced by calling the function. The new value is returned.
- An exhausted iterator returns the sentinel symbol
exhausted.
The generator() function creates a generator factory which returns
generator instances:
# Create a generator factory
generate_abc <- generator(function() {
for (x in letters[1:3]) {
yield(x)
}
})
# Create a generator instance
abc <- generate_abc()A generator instance is an iterator function which yields values:
abc
#> <generator/instance>
#> function ()
#> {
#> for (x in letters[1:3]) {
#> yield(x)
#> }
#> }
#> <environment: 0x1258e3818>
abc()
#> [1] "a"Collect all remaining values from an iterator with collect():
collect(abc)
#> [[1]]
#> [1] "b"
#>
#> [[2]]
#> [1] "c"Iterate over an iterator with loop():
loop(for (x in generate_abc()) {
print(toupper(x))
})
#> [1] "A"
#> [1] "B"
#> [1] "C"See vignette("generator") for more information.
Compatibility with the reticulate package
Python iterators imported with the
reticulate package are
compatible with loop() and collect():
suppressMessages(library(reticulate))
py_run_string("
def first_n(n):
num = 1
while num <= n:
yield num
num += 1
")
loop(for (x in py$first_n(3)) {
print(x * 2)
})
#> [1] 2
#> [1] 4
#> [1] 6They can also be composed with coro generators:
times <- generator(function(it, n) for (x in it) yield(x * n))
composed <- times(py$first_n(3), 10)
collect(composed)
#> [[1]]
#> [1] 10
#>
#> [[2]]
#> [1] 20
#>
#> [[3]]
#> [1] 30Limitations
yield() and await() can be used in loops, if/else branches,
tryCatch() expressions, or any combinations of these. However they
can’t be used as function arguments. These will cause errors:
generator(function() {
list(yield("foo"))
})
async(function() {
list(await(foo()))
})Fortunately it is easy to rewrite the code to work around this limitation:
generator(function() {
x <- yield("foo")
list(x)
})
async(function() {
x <- await(foo())
list(x)
})How does it work
Coroutines are an abstraction for state
machines
in languages that support them. Conversely, you can implement coroutines
by rewriting the code source provided by the user as a state machine.
Pass internals = TRUE to the print methods of coroutines to reveal the
state machine that is running under the hood:
print(generate_abc, internals = TRUE)
#> <generator>
#> function ()
#> {
#> for (x in letters[1:3]) {
#> yield(x)
#> }
#> }
#> <environment: 0x1258e3818>
#> State machine:
#> {
#> if (exhausted) {
#> return(invisible(exhausted()))
#> }
#> repeat switch(state[[1L]], `1` = {
#> iterators[[2L]] <- as_iterator(user(letters[1:3]))
#> state[[1L]] <- 2L
#> state[[2L]] <- 1L
#> }, `2` = {
#> repeat switch(state[[2L]], `1` = {
#> if ({
#> iterator <- iterators[[2L]]
#> if (is_exhausted(elt <- iterator())) {
#> FALSE
#> } else {
#> user_env[["x"]] <- elt
#> TRUE
#> }
#> }) {
#> state[[2L]] <- 2L
#> } else {
#> break
#> }
#> }, `2` = {
#> user({
#> x
#> })
#> state[[2L]] <- 3L
#> suspend()
#> return(last_value())
#> }, `3` = {
#> .last_value <- if (missing(arg)) NULL else arg
#> state[[2L]] <- 1L
#> })
#> iterators[[2L]] <- NULL
#> length(state) <- 1L
#> break
#> })
#> exhausted <- TRUE
#> invisible(exhausted())
#> }Despite this transformation of source code, browser() and
step-debugging still work as you would expect. This is because coro
keeps track of the source references from the original code.
Acknowledgements
The regenerator Javascript package which uses a similar transformation to implement generators and async functions in older versions of Javascript.
Gabor Csardi for many interesting discussions about concurrency and the design of coro.
Installation
Install the development version from github with:
# install.packages("devtools")
devtools::install_github("r-lib/coro", build_vignettes = TRUE)Code of Conduct
Please note that the coro project is released with a Contributor Code of Conduct. By contributing to this project, you agree to abide by its terms.