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I am facing a strange problem about and curve:

func1 <- function (m, n) {
  charac <- paste ("func2 <- function(x)", m, "*x^", n, sep = "")
  eval(parse(text = charac))
func3 <- function (m, n) {
  my.func <- func1 (m, n)"curve",list(expr = substitute(my.func)))

func1 constructs func2 and func3 plots the constructed func2. But when I run func3, following error would be displayed:

> func3 (3, 6)
Error in curve(expr = function (x)  : 
  'expr' must be a function, or a call or an expression containing 'x'

However, while I run func1 and plot the output manually (without applying func3), func2 would be plotted:

my.func <- func1 (3, 6)"curve",list(expr = substitute(my.func)))

What happened here leads me to a confusion and I do not know why can not plot func2 inside func3 local environment.

Thank you

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4 Answers 4

up vote 1 down vote accepted

It is not a problem of, but substitute which evaluate by default in the global environment. So you need to tell it in which environment substitution must occur. Here obviously in the local envir of func3.

This should work:"curve",list(expr = substitute(my.func,
                                           env = parent.frame())))

Edit thanks Dwin

As said in the comment substitute env Defaults to the current evaluation environment. So Why the code below works? The answer in the help of substitute

formal argument to a function or explicitly created using delayedAssign(), the expression slot of the promise replaces the symbol. If it is an ordinary variable, its value is substituted, unless env is .GlobalEnv in which case the symbol is left unchanged.

env = parent.frame(n=1) is equivalent to .GlobalEnv, that why the symbol (my.func) is left unchanged. So the correct answer would be :"curve",list(expr = substitute(my.func,
                                               env = .GlobalEnv)))

To test , I open new R session :

func1 <- function (m, n) {
  charac <- paste ("func2 <- function(x)", m, "*x^", n, sep = "")
  eval(parse(text = charac))
func3 <- function (m, n) {
  my.func <- func1 (m, n)"curve",list(expr = substitute(my.func,env = .GlobalEnv)))

Than I call

share|improve this answer
yes It works, thank you – Ehsan Masoudi Jan 12 '13 at 11:03
@EhsanMasoudi if it works and you are satisfied of the question you can accept it by checking the box at left. – agstudy Jan 12 '13 at 11:12
The help page for substitute says it is evaluated in the current environment. – 42- Jan 12 '13 at 11:48
Can you please create a context where this code doesn't throw an error? I get "could not find function 'my.curve" – 42- Jan 12 '13 at 12:17
@DWin I update my answer. – agstudy Jan 12 '13 at 12:20

You are making this overcomplicated - you don't need to do anything special when creating f2:

f1 <- function (m, n) {
  function(x) m * x ^ n
f3 <- function (m, n) {
  f2 <- f1(m, n)
f3(3, 6)

This could, of course, be made more concise by eliminating f1:

f4 <- function (m, n) {
  f2 <- function(x) m * x ^ n
f4(3, 6)

You can find more information about R's scoping rules (which makes this work) at

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++ :(more for the link than for the answer) I thought the question was how to pass arguments to functions that take expression arguments using inside another function, but maybe I was over-reading it. Reading you material I wonder if the problem might be that what was being passed was a closure rather than a function? – 42- Jan 12 '13 at 20:52
@DWin all functions are closures, so that's probably not the problem. But I don't really understand what you're trying to do in your answer. You might also find helpful, but it's still pretty rough. is also useful. – hadley Jan 12 '13 at 21:14
@hadley Yes I made it complicated, but it was just an simplified example of my main code. as you know R has no ability to handle symbolic computation (however there is a package called Ryacas and it's an interface to yacas). In my code such this method is applied to auto-construct Fisher information matrix for nonlinear models without user interfere – Ehsan Masoudi Jan 13 '13 at 12:20
@EhsanMasoudi R does have extensive capabilities for symbolic computation. – hadley Jan 13 '13 at 15:55

This works:

func3 <- function (m, n) {
   my.func <- func1 (m, n); print(str(my.func)), list(expr=bquote( my.func) ) )
share|improve this answer
+1 quote is fine, too. – Matthew Plourde Jan 12 '13 at 15:45
Can't tell why there's output with this method, though. – Matthew Plourde Jan 12 '13 at 15:51
curve is supposed to accept a function, so I don't understand your lack of understanding. – 42- Jan 12 '13 at 18:24
sorry, I'm not talking about the plot, I'm talking about the jibberish that prints to screen. – Matthew Plourde Jan 12 '13 at 18:55
Sorry. That print() call was just my way of making sure that my.func was really a function at that point. It can safely be ignored or removed. – 42- Jan 12 '13 at 20:48

You just need to remove line:

my.func <- func1 (m, n)

from func3.

share|improve this answer
How can that possibly help? – Matthew Lundberg Jan 12 '13 at 14:49

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