Why does this happen when a user-defined R function does not return a value?

Question

In the function shown below, there is no return. However, after executing it, I can confirm that the value entered d normally.

There is no return. Any suggestions in this regard will be appreciated.

Code

#installed plotly, dplyr
accumulate_by <- function(dat, var) {
  var <- lazyeval::f_eval(var, dat)
  lvls <- plotly:::getLevels(var)
  dats <- lapply(seq_along(lvls), function(x) {
  cbind(dat[var %in% lvls[seq(1, x)], ], frame = lvls[[x]])
  })
dplyr::bind_rows(dats)
}


d <- txhousing %>%
  filter(year > 2005, city %in% c("Abilene", "Bay Area")) %>%
  accumulate_by(~date)

Answer 1

In the function, the last assignment is creating 'dats' which is returned with bind_rows(dats) We don't need an explicit return statement. Suppose, if there are two objects to be returned, we can place it in a list

---

In some languages like python, for memory efficiency, generators are used which will yield instead of creating the whole output in memory i.e. Consider two functions in python

def get_square(n):
    result = []
    for x in range(n):
        result.append(x**2)
return result

When we run it

get_square(4)
#[0, 1, 4, 9]

The same function can be written as a generator. Instead of returning anything,

def get_square(n):
    for x in range(n):
        yield(x**2)

Running the function

get_square(4) 
#<generator object get_square at 0x0000015240C2F9E8> 

By casting with list, we get the same output

list(get_square(4))
#[0, 1, 4, 9]

Answer 2

There is always a return :) You just don't have to be explicit about it.

All R expressions return something. Including control structures and user-defined functions. (Control-structures are just functions, by the way, so you can just remember that everything is a value or a function call, and everything evaluates to a value).

For functions, the return value is the last expression evaluated in the execution of the function. So, for

f <- function(x) 2 + x

when you call f(3) you will invoke the function + with two parameters, 2 and x. These evaluate to 2 and 3, respectively, so `+`(2, 3) evaluates to 5, and that is the result of f(3).

When you call the return function -- and remember, this is a function -- you just leave the control-flow of a function early. So,

f <- function(x) {
    if (x < 0) return(0)
    x + 2
}

works as follows: When you call f, it will call the if function to figure out what to do in the first statement. The if function will evaluate x < 0 (which means calling the function < with parameters x and 0). If x < 0 is true, if will evaluate return(0). If it is false, it will evaluate its else part (which, because if has a special syntax when it comes to functions, isn't shown, but is NULL). If x < 0 is not true, f will evaluate x + 2 and return that. If x < 0 is true, however, the if function will evaluate return(0). This is a call to the function return, with parameter 0, and that call will terminate the execution of f and make the result 0.

Be careful with return. It is a function so

f <- function(x) {
    if (x < 0) return;
    x + 2
}

is perfectly valid R code, but it will not return when x < 0. The if call will just evaluate to the function return but not call it.

The return function is also a little special in that it can return from the parent call of control structures. Strictly speaking, return isn't evaluated in the frame of f in the examples above, but from inside the if calls. It just handles this special so it can return from f.

With non-standard evaluation this isn't always the case.

With this function

f <- function(df) {
    with(df, if (any(x < 0)) return("foo") else return("bar"))
    "baz"
}

you might think that

f(data.frame(x = rnorm(10)))

should return either "foo" or "bar". After all, we return in either case in the if statement. However, the if statement is evaluated inside with and it doesn't work that way. The function will return baz.

For non-local returns like that, you need to use callCC, and then it gets more technical (as if this wasn't technical enough).

If you can, try to avoid return completely and rely on functions returning the last expression they evaluate.

Update

Just to follow up on the comment below about loops. When you call a loop, you will most likely call one of the built-in primitive functions. And, yes, they return NULL. But you can write your own, and they will follow the rule that they return the last expression they evaluate. You can, for example, implement for in terms of while like this:

`for` <- function(itr_var, seq, body) {
    itr_var <- as.character(substitute(itr_var))
    body <- substitute(body)
    e <- parent.frame()
    j <- 1
    while (j < length(seq)) {
        assign(x = itr_var, value = seq[[j]], envir = e)
        eval(body, envir = e)
        j <- j + 1
    }
    "foo"
}

This function, will definitely return "foo", so this

for(i in 1:5) { print(i) }

evalutes to "foo". If you want it to return NULL, you have to be explicit about it (or just let the return value be the result of the while loop -- if that is the primitive while it returns NULL).

The point I want to make is that functions return the last expression they evaluate has to do with how the functions are defined, not how you call them. The loops use non-standard evaluation, so the last expression in the loop body you provide them might be the last value they evaluate and might not. For the primitive loops, it is not.

Except for their special syntax, there is nothing magical about loops. They follow the rules all functions follow. With non-standard evaluation it can get a bit tricky to work out from a function call what the last expression they will evaluate might be, because the function body looks like it is what the function evaluates. It is, to a degree, if the function is sensible, but the loop body is not the function body. It is a parameter. If it wasn't for the special syntax, and you had to provide loop bodies as normal parameters, there might be less confusion.