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I'm working in R, and I want to do, for example,

printx <- function() {
  x <- 1

printy <- function() {

because I don't want to keep passing around tons of variables (also, there is no x in the global environment). Is there a way to do this? All functions can access the global environment but what about the ones between the function's environment and the global?

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2 Answers 2

up vote 5 down vote accepted


printx <- function() {
  x <- 1

printy <- function() {

> x<-0
> printy()
[1] 0
> printx()
[1] 1
[1] 1

This would use the x to be printed by printy which was associated with the environment the function was called in.

One other possibility would be to create a new environment

e1<-new.env(parent = baseenv())

> assign('x',12,envir=e1)
> x
[1] 0
> get('x',e1)
[1] 12
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Beat me to it. Well done. Note, however, that it's not a great idea. Passing around a list of parameters would be better and not much more trouble. – Ari B. Friedman Jul 31 '12 at 0:59
@AriB.Friedman: passing an environment is another option, but you'd have to be careful not to inadvertently modify variables in the environment, since they're not pass-by-value. – Joshua Ulrich Jul 31 '12 at 1:25
That's a good option also. Together with @Michael's answer that makes three alternatives. Hurrah for the question-behind-the-question. – Ari B. Friedman Jul 31 '12 at 1:48
Thank you, this is exactly what I was looking for. I assume if I have a function that takes a variable of the same name, assigning it will overwrite the variable from the parent environment? – jclancy Jul 31 '12 at 1:56
You could also just nest the definition of printy in printx, as a function's environment inherits from its definition environment. – Charles Jul 31 '12 at 7:21

You could use a closure to obtain similar results without the risks associated with risks alluded to above. Without knowing exactly what you're trying to do, it's difficult to present a relevant example. But the below code might be of interest...

create.functions <- function(x){
        function() x,
        function() x+1,
        function() x^2


x <- 0

f1 <- create.functions(5)
[1] 5
[1] 6
[1] 25

f2 <- create.functions(3)
[1] 3
[1] 4
[1] 9

[1] 0

Notice that you can create a suite of functions sharing the same parameter, x, without any conflict between the parameter x and the value of x in the global environment. If you need a new set of functions where the parameter of x is differently defined, you can just create a new set.

This could even be worked such that code relying on the suite of functions need not be edited when changing the value of your parameter:

f <- create.functions(5)
[1] 0.2

f <- create.functions(3)
[1] 0.3333333

Note that the same line of code f[[1]]()/f[[3]](), returns different results depending on how your parameter x has been defined.

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