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This question prompted the following question: Is there a way to view the special primitive functions that are in the call stack?

For example, create a function that returns the call stack on exit:

myFun <- function(obj){
  on.exit(print(sys.calls()))
  return(obj)
}

Calling this function and assigning its result to an object using assign avoids using special primitive functions:

> assign("myObj",myFun(4))
[[1]]
assign("myObj", myFun(4))

[[2]]
myFun(4)

But using the assignment operator, this gets left out of the stack

> `<-`(myObj, myFun(6))
[[1]]
myFun(6)

Granted, it might not be all that common to want to see the assignment operator in the call stack, but other functions such as rep and log also get hidden

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+1 for a very interesting and well-articulated question. That linked section in the R Internals guide is also interesting: I hadn't before considered the variety of motivations for using Primitive functions. <-, log, and UseMethod are all primitives, but for quite different reasons. –  Josh O'Brien Oct 24 '12 at 22:50
    
@JoshO'Brien I don't think those motivations are necessarily correct - they can all be done with .Internal functions too –  hadley Oct 24 '12 at 23:54

1 Answer 1

up vote 5 down vote accepted

I don't think there's any way to access calls to primitive functions via the call stack. Here is why.

When a "typical" R function is evaluated:

  1. The supplied arguments are matched to the formal arguments.
  2. A new environment (with a pointer to its enclosing environment) is created, and the formal arguments are assigned into it.
  3. The body of the function is evaluated in the newly created environment.

The chain of enclosing environments that is built up when function calls are nested within one another is the "call stack" or "frame stack" to which sys.calls(), sys.frames() and the like provide some access.

My strong suspicion is that calls to primitive functions don't appear on the call stack because no R-side environment is created during their evaluation. No environment is created, so no environment appears on the call stack.

For some more insight, here's how John Chambers describes the evaluation of primitive functions on page 464 of Software for Data Analysis:

Evaluation of a call to one of these functions starts off in the usual way, but when the evaluator discovers that the function object is a primitive rather than a function defined in R, it branches to an entirely different computation. The object only appears to be a function object with formal arguments and a call to the function .Primitive() with a string argument. In reality, it essentially contains only an index into a table that is part of the C code implementing the core of R. The entry of the table identifies a C routine in the core that is responsible for evaluating calls to this specific primitive. The evaluator will transfer control to that routine, and expects the routine to return a C-language pointer to the R object representing the value of the call.

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2  
Also see the comments at the top of src/main/eval.c –  hadley Oct 24 '12 at 23:53
    
@hadley -- That's interesting but still a bit over my head. It would help if I knew how the BUILTIN calls discussed there relate to "builtin" and "special" primitive functions. Is Luke Tierney saying that context sometimes are now created for <- and log (for instance)? And what constitutes "foreign" code in Brian Ripley's parenthetical comment? Hmm. Lots to learn still. –  Josh O'Brien Oct 25 '12 at 0:15
    
@JoshO'Brien, Thank you for the great answer and the pointer to SoDA. It is on the shelf at work, but I hadn't gotten to that last chapter yet. After reading it and looking at the eval.c file, it looks like, at the c level, there is a mechanism for determining if an object is assigned to a name (NAMED()). If it were possible to obtain the pointer to the object created by Tyler's function, one could query in c code whether that object is assigned. Lots to learn for me, too! –  BenBarnes Oct 25 '12 at 15:25

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