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
```