3

In my R development I need to wrap function primitives in proto objects so that a number of arguments can be automatically passed to the functions when the $perform() method of the object is invoked. The function invocation internally happens via do.call(). All is well, except when the function attempts to access variables from the closure within which it is defined. In that case, the function cannot resolve the names.

Here is the smallest example I have found that reproduces the behavior:

library(proto)

make_command <- function(operation) {
  proto(
    func = operation,
    perform = function(., ...) {
      func <- with(., func) # unbinds proto method
      do.call(func, list(), envir=environment(operation))
    }  
    )
}

test_case <- function() {
  result <- 100  
  make_command(function() result)$perform()
}

# Will generate error:
# Error in function ()  : object 'result' not found
test_case()

I have a reproducible testthat test that also outputs a lot of diagnostic output. The diagnostic output has me stumped. By looking up the parent environment chain, my diagnostic code, which lives inside the function, finds and prints the very same variable the function fails to find. See this gist..

How can the environment for do.call be set up correctly?

3

This was the final answer after an offline discussion with the poster:

make_command <- function(operation) {
 proto(perform = function(.) operation())
}
  • Thanks for your several follow-ups on this question. Could you help me understand why this works? Does it go like this: (1) the . in the call to proto() refers to the evaluation frame/environment of the call to make_command(), which thus becomes the parent (i.e. .super) of the new proto object; so that (2) when operation is not found in the proto object, it is searched for and found in its .super; and then (3) operation itself has as environment the evaluation frame/environment of the call to test_case() (where result also lives)? – Josh O'Brien Jun 23 '12 at 23:03
  • A proto object is an environment. The proto object here has one component, perform, which is a function/method. perform's environment is set to the proto object when it is inserted so when perform runs it first looks for operation in the proto object and when its not found there it looks in the proto object's parent. The proto object's parent was not specified so it defaults to the environment in which the proto object was defined - which is the environment within the execution frame of make_command and there it finds operation as the argument. See new FAQ on proto home page. – G. Grothendieck Jun 24 '12 at 1:01
  • Thanks for the additional questions/comment and thanks for the new FAQ. – Sim Jun 26 '12 at 12:40
1

I think the issue here is clearer and easier to explore if you:

  • Replace the anonymous function within make_command() with a named one.

  • Make that function open a browser() (instead of trying to get result). That way you can look around to see where you are and what's going on.

Try this, which should clarify the cause of your problem:

test_case <- function() {
  result <- 100  
  myFun <- function() browser()
  make_command(myFun)$perform()
}
test_case()
## Then from within the browser:
#
parent.env(environment())
# <environment: 0x0d8de854>
# attr(,"class")
# [1] "proto"       "environment"
get("result", parent.env(environment()))
# Error in get("result", parent.env(environment())) : 
#   object 'result' not found
#
parent.frame()
# <environment: 0x0d8ddfc0>
get("result", parent.frame())  ## (This works, so points towards a solution.)
# [1] 100

Here's the problem. Although you think you're evaluating myFun(), whose environment is the evaluation frame of test_case(), your call to do.call(func, ...) is really evaluating func(), whose environment is the proto environment within which it was defined. After looking for and not finding result in its own frame, the call to func() follows the rules of lexical scoping, and next looks in the proto environment. Neither it nor its parent environment contains an object named result, resulting in the error message you received.

If this doesn't immediately make sense, you can keep poking around within the browser. Here are a few further calls you might find helpful:

environment(get("myFun", parent.frame()))
ls(environment(get("myFun", parent.frame())))
environment(get("func", parent.env(environment())))
ls(environment(get("func", parent.env(environment()))))
  • Thanks, these are helpful debugging tips. What reading would you recommend for really understanding the scope chains in R? – Sim Jun 20 '12 at 5:04
  • One small point of clarification about your answer: the environment of func is the proto object's but not because this is where it is defined. Proto wraps functions in a class to turn them into instantiated methods. with(., func) unwraps them and should have worked, except that proto's implementation actually resets the function's environment so that its code can access the internals of the proto object. It's that resetting happening behind the scenes that is the cause of the behavior (and the confusion). – Sim Jun 20 '12 at 5:14
  • @Sim -- Thanks for the clarification. Section 13.3 of John Chambers' "Software for Data Analysis" gives a clear explanation of scoping in R. The one confusing thing he does it to consistently call enclosing environments "parent environments". I think that's unfortunate since it muddies the important distinction between the call stack (a chain of parent frames), and the chain of enclosing environments along which the evaluator searches to resolve the values of symbols not present in the local environment. – Josh O'Brien Jun 20 '12 at 6:50
  • @Sim -- On a separate note, does replacing make_command(function() result)$perform() with make_command(function() get("result", parent.frame()))$perform() (or its equivalent) solve your immediate problem for you? – Josh O'Brien Jun 20 '12 at 6:53
  • Just a clarification of something said above. When a function/method f is inserted into a proto object p using p <- proto(... f = function(...) ...) the environment of the copy of f inserted into p is changed to point to p but its class remains that of "function" and in all other respects f remains unchanged. Instantiating f by writing p$f returns an object of class c("instantiatedProtoMethod", "function") . Thus with(p, f) does not really unwrap f but simply returns f exactly as it exists in p. – G. Grothendieck Jun 22 '12 at 2:48

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