You can call later::later
from C++ code in your own
packages, to cause your own C-style functions to be called back. This is
safe to call from either the main R thread or a different thread; in
both cases, your callback will be invoked from the main R thread.
To use the C++ interface, you’ll need to:
later
to your DESCRIPTION
file, under
both LinkingTo
and Imports
NAMESPACE
file has an
import(later)
entry. If your package uses roxygen2, you can
do this by adding the following lines to any file under
R/
:#' @import later
NULL
#include <later_api.h>
to the top of each C++
file that uses the below APIs.The later::later
function is accessible from
later_api.h
and its prototype looks like this:
void later(void (*func)(void*), void* data, double secs)
The first argument is a pointer to a function that takes one
void*
argument and returns void. The second argument is a
void*
that will be passed to the function when it’s called
back. And the third argument is the number of seconds to wait (at a
minimum) before invoking. In all cases, the function will be invoked on
the R thread, when no user R code is executing.
This package also offers a higher-level C++ helper class called
later::BackgroundTask
, to make it easier to execute tasks
on a background thread. It takes care of launching the background thread
for you, and returning control back to the R thread at a later point;
you’re responsible for providing the actual code that executes on the
background thread, as well as code that executes on the R thread before
and after the background task completes.
Its public/protected interface looks like this:
class BackgroundTask {
public:
();
BackgroundTaskvirtual ~BackgroundTask();
// Start executing the task
void begin();
protected:
// The task to be executed on the background thread.
// Neither the R runtime nor any R data structures may be
// touched from the background thread; any values that need
// to be passed into or out of the Execute method must be
// included as fields on the Task subclass object.
virtual void execute() = 0;
// A short task that runs on the main R thread after the
// background task has completed. It's safe to access the
// R runtime and R data structures from here.
virtual void complete() = 0;
}
Create your own subclass, implementing a custom constructor plus the
execute
and complete
methods.
It’s critical that the code in your execute
method not
mutate any R data structures, call any R code, or cause any R
allocations, as it will execute in a background thread where such
operations are unsafe. You can, however, perform such operations in the
constructor (assuming you perform construction only from the main R
thread) and complete
method. Pass values between the
constructor and methods using fields.
#include <Rcpp.h>
#include <later_api.h>
class MyTask : public later::BackgroundTask {
public:
MyTask(Rcpp::NumericVector vec) :
inputVals(Rcpp::as<std::vector<double> >(vec)) {
}
protected:
void execute() {
double sum = 0;
for (std::vector<double>::const_iterator it = inputVals.begin();
it != inputVals.end();
it++) {
sum += *it;
}
result = sum / inputVals.size();
}
void complete() {
Rprintf("Result is %f\n", result);
}
private:
std::vector<double> inputVals;
double result;
};
To run the task, new
up your subclass and call
begin()
, e.g. (new MyTask(vec))->begin()
.
There’s no need to keep track of the pointer; the task object will
delete itself when the task is complete.
// [[Rcpp::export]]
asyncMean(Rcpp::NumericVector data) {
void MyTask(data))->begin();
(new }
It’s not very useful to execute tasks on background threads if you can’t get access to the results back in R. We’ll soon be introducing a complementary R package that provides a suitable “promise” or “future” abstraction.