The problem with trying to figure out what environment your code is running in is that any object can be modified and declared making it close to impossible to figure out which objects are native to the environment, and which have been modified by the program.
However, there are a few tricks we can use to figure out for sure what environment you are in.
Lets start out with the generally accepted solution that's used in the underscore library:
typeof module !== 'undefined' && module.exports
This technique is actually perfectly fine for the server side, as when the require
function is called, it resets the this
object to an empty object, and redefines module
for you again, meaning you don't have to worry about any outside tampering. As long as your code is loaded in with require
, you are safe.
However, this falls apart on the browser, as anyone can easily define module
to make it seem like it's the object you are looking for. On one hand this might be the behavior you want, but it also dictates what variables the library user can use in the global scope. Maybe someone wants to use a variable with the name module
that has exports
inside of it for another use. It's unlikely, but who are we to judge what variables someone else can use, just because another environment uses that variable name?
The trick however, is that if we are assuming that your script is being loaded in the global scope (which it will be if it's loaded via a script tag) a variable cannot be reserved in an outer closure, because the browser does not allow that. Now remember in node, the this
object is an empty object, yet, the module
variable is still available. That is because it's declared in an outer closure. So we can then fix underscore's check by adding an extra check:
this.module !== module
With this, if someone declares module
in the global scope in the browser, it will be placed in the this
object, which will cause the test to fail, because this.module
, will be the same object as module. On node, this.module
does not exist, and module
exists within an outer closure, so the test will succeed, as they are not equivalent.
Thus, the final test is:
typeof module !== 'undefined' && this.module !== module
Note: While this now allows the module
variable to be used freely in the global scope, it is still possible to bypass this on the browser by creating a new closure and declaring module
within that, then loading the script within that closure. At that point the user is fully replicating the node environment and hopefully knows what they are doing and is trying to do a node style require. If the code is called in a script tag, it will still be safe from any new outer closures.