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A while back I got rebuked by Simon Urbanek from the R core team (I believe) for recommending a user to explicitly calling return at the end of a function (his comment was deleted though):

foo = function() {
  return(value)
}

instead he recommended:

foo = function() {
  value
}

Probably in a situation like this it is required:

foo = function() {
 if(a) {
   return(a)
 } else {
   return(b)
 }
}

His comment shed some light on why not calling return unless strictly needed is a good thing, but this was deleted.

My question is: Why is not calling return faster or better, and thus preferable?

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4  
return is unnecessary even in the last example. Removing return may make it faster a little, but in my view this is because R is said to be a funcional programing language. –  kohske Jul 31 '12 at 13:07
3  
@kohske Could you expand your comment into an answer, including more details about why it is faster, and how this is related to R being a functional programming language? –  Paul Hiemstra Jul 31 '12 at 13:13
1  
return induces non-local jump, and the explicit non-local jump is unusual for FP. Actually, for example, scheme does not have return. I think my comments are too short (and maybe incorrect) as an answer. –  kohske Jul 31 '12 at 13:23
    
F# doesn't have return, break, continue either, which is tedious sometimes. –  colinfang Aug 27 '13 at 12:17

6 Answers 6

up vote 34 down vote accepted

Question was: Why is not (explicitly) calling return faster or better, and thus preferable?

There is no statemement in R documentation making such an assumption.
Tha man page ?'function' says:

function( arglist ) expr
return(value)

Is it faster without calling return?

Both function() and return() are primitive functions and the function() itself returns last evaluated value even without including return() function.

Calling return() as .Primitive('return') with that last value as an argument will do the same job but needs one call more. So that this (often) unnecessary .Primitive('return') call can draw additional resources. Simple measurement however shows that the resulting difference is very small and thus can not be the reason for not using explicit return. The following plot is created from data selected this way:

bench_nor2 <- function(x,repeats) { system.time(rep(
# without explicit return
(function(x) vector(length=x,mode="numeric"))(x)
,repeats)) }

bench_ret2 <- function(x,repeats) { system.time(rep(
# with explicit return
(function(x) return(vector(length=x,mode="numeric")))(x)
,repeats)) }

maxlen <- 1000
reps <- 10000
along <- seq(from=1,to=maxlen,by=5)
ret <- sapply(along,FUN=bench_ret2,repeats=reps)
nor <- sapply(along,FUN=bench_nor2,repeats=reps)
res <- data.frame(N=along,ELAPSED_RET=ret["elapsed",],ELAPSED_NOR=nor["elapsed",])

# res object is then visualized
# R version 2.15

Function elapsed time comparison

The picture above may slightly difffer on your platform. Based on measured data, the size of returned object is not causing any difference, the number of repeats (even if scaled up) makes just a very small difference, which in real word with real data and real algorithm could not be counted or make your script run faster.

Is it better without calling return?

Return is good tool for clearly designing "leaves" of code where the routine should end, jump out of the function and return value.

# here without calling .Primitive('return')
> (function() {10;20;30;40})()
[1] 40
# here with .Primitive('return')
> (function() {10;20;30;40;return(40)})()
[1] 40
# here return terminates flow
> (function() {10;20;return();30;40})()
NULL
> (function() {10;20;return(25);30;40})()
[1] 25
> 

It depends on strategy and programming style of the programmer what style he use, he can use no return() as it is not required.

R core programmers uses both approaches ie. with and without explicit return() as it is possible to find in sources of 'base' functions.

Many times only return() is used (no argument) returning NULL in cases to conditially stop the function.

It is not clear if it is better or not as standard user or analyst using R can not see the real difference.

My opinion is that the question we have to ask should be: Is there any danger in using explicit return coming from R implementation?

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2  
Thanks for a very good answer. I believe there is no danger in using return, and it comes down to the preference of the programmer whether or not to use it. –  Paul Hiemstra Aug 13 '12 at 8:59

If everyone agrees that

  1. return is not necessary at the end of a function's body
  2. not using return is marginally faster (according to @Alan's test, 4.3 microseconds versus 5.1)

should we all stop using return at the end of a function? I certainly won't, and I'd like to explain why. I hope to hear if other people share my opinion. And I apologize if it is not a straight answer to the OP, but more like a long subjective comment.

My main problem with not using return is that, as Paul pointed out, there are other places in a function's body where you may need it. And if you are forced to use return somewhere in the middle of your function, why not make all return statements explicit? I hate being inconsistent. Also I think the code reads better; one can scan the function and easily see all exit points and values.

Paul used this example:

foo = function() {
 if(a) {
   return(a)
 } else {
   return(b)
 }
}

Unfortunately, one could point out that it can easily be rewritten as:

foo = function() {
 if(a) {
   output <- a
 } else {
   output <- b
 }
output
}

The latter version even conforms with some programming coding standards that advocate one return statement per function. I think a better example could have been:

bar <- function() {
   while (a) {
      do_stuff
      for (b) {
         do_stuff
         if (c) return(1)
         for (d) {
            do_stuff
            if (e) return(2)
         }
      }
   }
   return(3)
}

This would be much harder to rewrite using a single return statement: it would need multiple breaks and an intricate system of boolean variables for propagating them. All this to say that the single return rule does not play well with R. So if you are going to need to use return in some places of your function's body, why not be consistent and use it everywhere?

I don't think the speed argument is a valid one. A 0.8 microsecond difference is nothing when you start looking at functions that actually do something. The last thing I can see is that it is less typing but hey, I'm not lazy.

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2  
+1, there is a clear need for the return statement in some cases, as @flodel showed. Alternatively, there are situations where a return statement is best omitted, e.g. lots and lots of small function calls. In all other, say 95%, of the cases it does not really matter if one uses return or not, and it comes down to preference. I like using return as it is more explicit in what you mean, thus more readable. Maybe this discussion is akin to <- vs =? –  Paul Hiemstra Aug 10 '12 at 8:45
1  
This is treating R as an imperative programming language, which it is not: it’s a functional programming language. Functional programming simply works differently, and using return to return a value is nonsensical, on par with writing if (x == TRUE) instead of if (x). –  Konrad Rudolph Jun 20 at 18:02

It seems that without return() it's faster...

library(rbenchmark)
x <- 1
foo <- function(value) {
  return(value)
}
fuu <- function(value) {
  value
}
benchmark(foo(x),fuu(x),replications=1e7)
    test replications elapsed relative user.self sys.self user.child sys.child
1 foo(x)     10000000   51.36 1.185322     51.11     0.11          0         0
2 fuu(x)     10000000   43.33 1.000000     42.97     0.05          0         0

____EDIT __________________

I proceed to others benchmark (benchmark(fuu(x),foo(x),replications=1e7)) and the result is reversed... I'll try on a server.

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Could you comment on the reason why this difference occurs? –  Paul Hiemstra Aug 1 '12 at 5:06
1  
@PaulHiemstra Petr's Answer covers one of the main reasons for this; two calls when using return(), one if you don't. It is totally redundant at the end of a function as function() returns it's last value. You'l only notice this in many repeats of a function where not much is done internally so that the cost of return() becomes large part of total compute time of function. –  Gavin Simpson Aug 7 '12 at 9:25

This is an interesting discussion. I think that @flodel's example is excellent. However, I think it illustrates my point (and @koshke mentions this in a comment) that return makes sense when you use an imperative instead of a functional coding style.

Not to belabour the point, but I would have rewritten foo like this:

foo = function() ifelse(a,a,b)

A functional style avoids state changes, like storing the value of output. In this style, return is out of place; foo looks more like a mathematical function.

I agree with @flodel: using an intricate system of boolean variables in bar would be less clear, and pointless when you have return. What makes bar so amenable to return statements is that it is written in an imperative style. Indeed, the boolean variables represent the "state" changes avoided in a functional style.

It is really difficult to rewrite bar in functional style, because it is just pseudocode, but the idea is something like this:

e_func <- function() do_stuff
d_func <- function() ifelse(any(sapply(seq(d),e_func)),2,3)
b_func <- function() {
  do_stuff
  ifelse(c,1,sapply(seq(b),d_func))
}

bar <- function () {
   do_stuff
   sapply(seq(a),b_func) # Not exactly correct, but illustrates the idea.
}

The while loop would be the most difficult to rewrite, because it is controlled by state changes to a.

The speed loss caused by a call to return is negligible, but the efficiency gained by avoiding return and rewriting in a functional style is often enormous. Telling new users to stop using return probably won't help, but guiding them to a functional style will payoff.


@Paul return is necessary in imperative style because you often want to exit the function at different points in a loop. A functional style doesn't use loops, and therefore doesn't need return. In a purely functional style, the final call is almost always the desired return value.

In Python, functions require a return statement. However, if you programmed your function in a functional style, you will likely have only one return statement: at the end of your function.

Using an example from another StackOverflow post, let us say we wanted a function that returned TRUE if all the values in a given x had an odd length. We could use two styles:

# Procedural / Imperative
allOdd = function(x) {
  for (i in x) if (length(i) %% 2 == 0) return (FALSE)
  return (TRUE)
}

# Functional
allOdd = function(x) 
  all(length(x) %% 2 == 1)

In a functional style, the value to be returned naturally falls at the ends of the function. Again, it looks more like a mathematical function.

@GSee The warnings outlined in ?ifelse are definitely interesting, but I don't think they are trying to dissuade use of the function. In fact, ifelse has the advantage of automatically vectorizing functions. For example, consider a slightly modified version of foo:

foo = function(a) { # Note that it now has an argument
 if(a) {
   return(a)
 } else {
   return(b)
 }
}

This function works fine when length(a) is 1. But if you rewrote foo with an ifelse

foo = function (a) ifelse(a,a,b)

Now foo works on any length of a. In fact, it would even work when a is a matrix. Returning a value the same shape as test is a feature that helps with vectorization, not a problem.

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It is not clear to me why return does not fit with a functional style of programming. Wether one is programming imperatively or functionally, at some stage a function or subroutine needs to return something. For example, functional programming in python still requires a return statement. Could you elaborate more on this point. –  Paul Hiemstra Aug 11 '12 at 12:18
    
In this situation, using ifelse(a,a,b) is a pet peeve of mine. It seems like every line in ?ifelse is screaming, "don't use me instead of if (a) {a} else b." e.g. "... returns a value with the same shape as test", "if yes or no are too short, their elements are recycled.", "the mode of the result may depend on the value of test", "the class attribute of the result is taken from test and may be inappropriate for the values selected from yes and no" –  GSee Aug 11 '12 at 12:31
    
I updated my answer to respond to these comments. –  nograpes Aug 11 '12 at 16:00
    
At second look, foo doesn't make much sense; it will always return TRUE or b. Using ifelse it will return 1 or several TRUEs, and/or 1 or several bs. Initially, I thought the intent of the function was to say "if some statement is TRUE, return something, otherwise, return something else." I don't think that should be vectorized, because then it would become "return the elements of some object that are TRUE, and for all the elements that aren't TRUE, return b. –  GSee Aug 11 '12 at 18:06

A problem with not putting 'return' explicitly at the end is that if one adds additional statements at the end of the method, suddenly the return value is wrong:

foo <- function() {
    dosomething()
}

This returns the value of dosomething().

Now we come along the next day and add a new line:

foo <- function() {
    dosomething()
    dosomething2()
}

We wanted our code to return the value of dosomething(), but instead it no longer does.

With an explicit return, this becomes really obvious:

foo <- function() {
    return( dosomething() )
    dosomething2()
}

We can see that there is something strange about this code, and fix it:

foo <- function() {
    dosomething2()
    return( dosomething() )
}
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yes, actually I find that an explicit return() is useful when debugging; once the code is cleaned up, its need is less compelling and I prefer the elegance of not having it ... –  PatrickT Jan 15 at 9:01

I think of return as a trick. As a general rule, the value of the last expression evaluated in a function becomes the function's value -- and this general pattern is found in many places. All of the following evaluate to 3:

local({
1
2
3
})

eval(expression({
1
2
3
}))

(function() {
1
2
3
})()

What return does is not really returning a value (this is done with or without it) but "breaking out" of the function in an irregular way. In that sense, it is the closest equivalent of GOTO statement in R (there are also break and next). I use return very rarely and never at the end of a function.

 if(a) {
   return(a)
 } else {
   return(b)
 }

... this can be rewritten as if(a) a else b which is much better readable and less curly-bracketish. No need for return at all here. My prototypical case of use of "return" would be something like ...

ugly <- function(species, x, y){
   if(length(species)>1) stop("First argument is too long.")
   if(species=="Mickey Mouse") return("You're kidding!")
   ### do some calculations 
   if(grepl("mouse", species)) {
      ## do some more calculations
      if(species=="Dormouse") return(paste0("You're sleeping until", x+y))
      ## do some more calculations
      return(paste0("You're a mouse and will be eating for ", x^y, " more minutes."))
      }
   ## some more ugly conditions
   # ...
   ### finally
   return("The end")
   }

Generally, the need for many return's suggests that the problem is either ugly or badly structured.g

<>

return doesn't really need a function to work: you can use it to break out of a set of expressions to be evaluated.

getout <- TRUE 
# if getout==TRUE then the value of EXP, LOC, and FUN will be "OUTTA HERE"
# .... if getout==FALSE then it will be `3` for all these variables    

EXP <- eval(expression({
   1
   2
   if(getout) return("OUTTA HERE")
   3
   }))

LOC <- local({
   1
   2
   if(getout) return("OUTTA HERE")
   3
   })

FUN <- (function(){
   1
   2
   if(getout) return("OUTTA HERE")
   3
   })()

identical(EXP,LOC)
identical(EXP,FUN)
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