We can do this by specifying a specific environment for exists to search in and tell it to only look there, and not in the enclosing environments.
The where= argument tells exists where to look for that object. We can either specify it explicitly with environment() (which returns the current environment), or use the default value of -1 which drops the R_GlobalEnv from the list of environments to search.
Either way, the key is to set inherits=FALSE to limit it to only the specified environment. Otherwise, it also looks in the enclosing environments (like R_GlobalEnv) which we don't want:
x <- 1
fun <- function(){exists("x", inherits = F)}
fun()
[1] FALSE
However if we define x in the enviroment of the function, it returns TRUE:
fun <- function(){
x<-3;
exists("x", inherits = F)}
fun()
[1] TRUE
The example mentioned with explicitly defined environment:
fun <- function(){exists("x", where = environment(), inherits = F)}
What's happening with the default where=-1 argument? The documentation says that if you provide it with an integer, it selects the environment based on "the position in the search list". We can see that .GlobalEnv is at position 1, followed by attached packages
rm(list=ls()) # clear .GlobalEnv
x <- 3 # Add x to .GlobalEnv
ls() # Show that x is the only thing in .GlobalEnv
[1] "x"
search() # Show the search list
[1] ".GlobalEnv" "package:lubridate" "package:forcats" "package:stringr"
[5] "package:dplyr" "package:purrr" "package:readr" "package:tidyr"
[9] "package:tibble" "package:ggplot2" "package:tidyverse" "tools:rstudio"
[13] "package:stats" "package:graphics" "package:grDevices" "package:utils"
[17] "package:datasets" "package:methods" "Autoloads" "package:base"
Now we run this function which checks for different objects in different environments by integer value:
fun <- function(){
y <- 3
k <- function(){
z <- 3
print(exists('z', -1, inherit=FALSE))
print(exists('x', 1, inherit=FALSE))
print(exists('y', parent.frame(), inherit=FALSE))}
k()
print(exists('x', -1, inherit=FALSE))
print(exists('y', -1, inherit=FALSE))
print(exists('x', 1, inherit=FALSE))
print(exists('ymd', 2, inherit=FALSE))
print(exists('last2', 3, inherit=FALSE))
print(exists('str_detect', 4, inherit=FALSE))
}
> fun()
[1] TRUE # Inside k(), -1 is the function env for k() - z is there
[1] TRUE # 1 is .GlobalEnv, x is there
[1] TRUE # to choose parent env with y, we need to specify it with parent.frame()
[1] FALSE # -1 is the function env, x not in function env
[1] TRUE # -1 is the function env, y is in function env
[1] TRUE # 1 is .GlobalEnv, x is in .GlobalEnv
[1] TRUE # position 2 is the lubridate package
[1] TRUE # position 3 is the forcats package
[1] TRUE # position 4 is the stringr package
From this we can see that -1 is always the local environment of the current function, while 1 is .GlobalEnv and higher numbers are attached packages as listed by search(). If you want to specify with more detail, for instance to look in fun() from within k(), then you need to specify the environment explicitly, either with a relative function like parent.frame() as above or by getting the environment as an object and referring directly as below:
fun <- function(){
y <- 3
env <- environment()
k <- function(e){
z <- 3
print(exists('y', inherit=FALSE))
print(exists('y', where=e, inherit=FALSE))
}
k(env)
}
fun()
[1] FALSE
[1] TRUE
