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I have been writing code using R reference classes. However, as I have progressed, the program has become intolerably slow. To demonstrate the problem, take the following example:

myClass <- setRefClass(
    initialize=function () {
      counter <<- 0
    donothing=function () {

    rand=function () {
    increment=function () {
      counter <<- counter + 1

mc <- myClass()
system.time(for (it in 1:500000) {
system.time(for (it in 1:500000) {
system.time(for (it in 1:500000) {

It takes:

  • 4s for calls to a method
  • 7s for calls to generate a random number
  • 19s to increment a field value

It's the last result that's causing me problems. I obviously don't expect it to take twice as long to increment a number than to generate a random number. My code involves a lot of accessing and changing of field values in a reference class, and this performance issue has made the program all but usable.

My question: is there anything I can do to improve the performance of field lookup/access in R reference classes? Is there anything I should be doing differently?

share|improve this question
I don't know, but I'm suspicious of the <<-. Is that really the right way to increment a reference class field ?? – Ben Bolker Feb 10 '14 at 3:06
@BenBolker I believe so, the documentation page says "Note that non-local assignment is required". I can't see any other obvious way of doing it. Reading the assignment documentation, it says <<- causes "a search to made through parent environments for an existing definition of the variable being assigned" I suspect this is where the performance hit lies. – Brendon Feb 10 '14 at 7:19
You don't have to use non-local assignemtns as you can use .self$<fieldname> or .self$field(<fieldname>). But that doesn't really speed up things either. Good question! – Rappster Mar 12 '14 at 19:30

1 Answer 1

It seems a major performance issue was due to providing class names in the fields argument. If I replace




the calculation completes in 5s, compared to 19s. It is difficult to determine from the documentation why the performance penalty is so great -- perhaps it is due to checking of classes during assignment. The documentation mentions the following:

In particular, fields with a specified class are implemented as a special form of active binding to enforce valid assignment to the field

I'm not too sure what 'active binding' is, but I assume it introduces some pre-assignment logic.

share|improve this answer
I presume that fields=c("counter") is equivalent to c(counter="ANY") – csgillespie Jul 3 '14 at 7:35

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