I saw a blank stub on MDN a while ago for the Reflect object in javascript but I can't for the life of me find anything on Google. Today I found this http://people.mozilla.org/~jorendorff/es6-draft.html#sec-reflect-object and it sounds similar to the Proxy object apart from the realm and loader functionality.

Basically, I don't know whether this page I found only explains how to implement Reflect or if I just can't understand its wording. Could someone please explain to me generally what the methods of Reflect do?

For instance, on the page I found says that calling Reflect.apply ( target, thisArgument, argumentsList ) will "Return the result of calling the [[Call]] internal method of target with arguments thisArgument and args." but how is that any different than just calling target.apply(thisArgument, argumentsList)?


Thanks to @Blue, I found this page on the wiki http://wiki.ecmascript.org/doku.php?id=harmony:reflect_api&s=reflect which to the best of my knowledge says that the reflect object provides method versions of all the actions that can be trapped by proxies to make forwarding easier. But that seems a little weird to me since I don't see how it's entirely necessary. But it Seems to do a little more than that, particularly the par that says double-lifting but that points to the old proxy spec/

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    The spec says "The Reflect object is a single ordinary object.", to my understanding Reflect is just a container for Realm and Loader objects, but I don't know what the latter do either.
    – simonzack
    Commented Aug 23, 2014 at 4:50
  • Thanks:), I seems from the page I linked to (don't know how legitimate it is) that each Realm is its own "context of java script" and a loader loads Realms like modules or something, based on the similarities between reflect and proxy and the fact that proxy sort of "overloads" built in functionality could Reflect.Loader and Reflect.Realm have something to with overloading module functionality?
    – Jim Jones
    Commented Aug 23, 2014 at 5:13
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    Looks like it's a 'static class' (like JSON) with static methods: isExtensible, ownKeys etc. In ES 6, with actual classes, this is useful to find out more about a class (target in 16.1.2 I think).
    – Rudie
    Commented Aug 23, 2014 at 21:48
  • Have you seen github.com/tvcutsem/harmony-reflect/wiki?
    – kangax
    Commented Aug 30, 2014 at 17:58

2 Answers 2


UPDATE 2015: As pointed out by 7th's answer, now that ES6 (ECMAScript 2015) has been finalized, more appropriate documentation is now available:

**Original answer (for (historic) understanding and extra examples)**:

The Reflection proposal seems to have progressed to the Draft ECMAScript 6 Specification. This document currently outlines the Reflect-object's methods and only states the following about the Reflect-object itself:

The Reflect object is a single ordinary object.

The value of the [[Prototype]] internal slot of the Reflect object is the standard built-in Object prototype object (19.1.3).

The Reflect object is not a function object. It does not have a [[Construct]] internal method; it is not possible to use the Reflect object as a constructor with the new operator. The Reflect object also does not have a [[Call]] internal method; it is not possible to invoke the Reflect object as a function.

However, there is a short explanation about it's purpose in ES Harmony:

The “@reflect” module serves multiple purposes:
  • Now that we have modules, a “@reflect” module is a more natural place for many of the reflection methods previously defined on Object. For backwards-compatibility purposes, it is unlikely that the static methods on Object will disappear. However, new methods should likely be added to the “@reflect” module rather than to the Object constructor.
  • A natural home for proxies, avoiding the need for a global Proxy binding.
  • Most methods in this module map one-to-one onto Proxy traps. Proxy handlers need these methods to conveniently forward operations, as shown below.

So, the Reflect object provides a number of utility functions, many of which appear to overlap with ES5 methods defined on the global Object.

However, that doesn't really explain what existing problems this intends to solve or what functionality is added. I suspected this could be shimmed and indeed, the above harmony-spec links to a 'non-normative, approximate implementation of these methods'.

Examining that code could give (further) idea's about it's use, but thankfully there is also a wiki that outlines a number of reasons why the Reflect object is useful:
(I've copied (and formatted) the following text for future reference from that source as they are the only examples I could find. Besides that, they make sense, already have a good explanation and touch the question's apply example.)

More useful return values

Many operations in Reflect are similar to ES5 operations defined on Object, such as Reflect.getOwnPropertyDescriptor and Reflect.defineProperty. However, whereas Object.defineProperty(obj, name, desc) will either return obj when the property was successfully defined, or throw a TypeError otherwise, Reflect.defineProperty(obj, name, desc) is specced to simply return a boolean that indicates whether or not the property was successfully defined. This allows you to refactor this code:

try {
  Object.defineProperty(obj, name, desc);
  // property defined successfully
} catch (e) {
  // possible failure (and might accidentally catch the wrong exception)

To this:

if (Reflect.defineProperty(obj, name, desc)) {
  // success
} else {
  // failure

Other methods that return such a boolean success status are Reflect.set (to update a property), Reflect.deleteProperty (to delete a property), Reflect.preventExtensions (to make an object non-extensible) and Reflect.setPrototypeOf (to update an object's prototype link).

First-class operations

In ES5, the way to detect whether an object obj defines or inherits a certain property name is to write (name in obj). Similarly, to delete a property, one uses delete obj[name]. While dedicated syntax is nice and short, it also means you must explicitly wrap these operations in functions when you want to pass the operation around as a first-class value.

With Reflect, these operations are readily defined as first-class functions:
Reflect.has(obj, name) is the functional equivalent of (name in obj) and Reflect.deleteProperty(obj, name) is a function that does the same as delete obj[name].

More reliable function application

In ES5, when one wants to call a function f with a variable number of arguments packed as an array args and binding the this value to obj, one can write:

f.apply(obj, args)

However, f could be an object that intentionally or unintentionally defines its own apply method. When you really want to make sure that the built-in apply function is called, one typically writes:

Function.prototype.apply.call(f, obj, args)

Not only is this verbose, it quickly becomes hard to understand. With Reflect, you can now make a reliable function call in a shorter and easier to understand way:

Reflect.apply(f, obj, args)

Variable-argument constructors

Imagine you want to call a constructor function with a variable number of arguments. In ES6, thanks to the new spread syntax, it will be possible to write code like:

var obj = new F(...args)

In ES5, this is harder to write, because one can only use F.apply or F.call to call a function with a variable number of arguments, but there is no F.construct function to new the function with a variable number of arguments. With Reflect, one can now write, in ES5:

var obj = Reflect.construct(F, args)

Default forwarding behavior for Proxy traps

When using Proxy objects to wrap existing objects, it is very common to intercept an operation, do something, and then to "do the default thing", which is typically to apply the intercepted operation to the wrapped object. For example, say I want to simply log all property accesses to an object obj:

var loggedObj = new Proxy(obj, {
  get: function(target, name) {
    console.log("get", target, name);
    // now do the default thing

The Reflect and Proxy APIs were designed in tandem, such that for each Proxy trap, there exists a corresponding method on Reflect that "does the default thing". Hence, whenever you find yourself wanting to "do the default" thing inside a Proxy handler, the correct thing to do is to always call the corresponding method in the Reflect object:

var loggedObj = new Proxy(obj, {
  get: function(target, name) {
    console.log("get", target, name);
    return Reflect.get(target, name);

The return type of the Reflect methods is guaranteed to be compatible with the return type of the Proxy traps.

Control the this-binding of accessors

In ES5 it's fairly easy to do a generic property access or property update. For instance:

var name = ... // get property name as a string
obj[name] // generic property lookup
obj[name] = value // generic property update

The Reflect.get and Reflect.set methods allow you to do the same thing, but additionally accept as a last optional argument a receiver parameter that allows you to explicitly set the this-binding when the property that you get/set is an accessor:

var name = ... // get property name as a string
Reflect.get(obj, name, wrapper) // if obj[name] is an accessor, it gets run with `this === wrapper`
Reflect.set(obj, name, value, wrapper)

This is occasionally useful when you're wrapping obj and you want any self-sends within the accessor to get re-routed to your wrapper, e.g. if obj is defined as:

var obj = {
  get foo() { return this.bar(); },
  bar: function() { ... }

Calling Reflect.get(obj, "foo", wrapper) will cause the this.bar() call to get rerouted to wrapper.

Avoid legacy __proto__

On some browsers, __proto__ is defined as a special property that gives access to an object's prototype. ES5 standardized a new method Object.getPrototypeOf(obj) to query the prototype. Reflect.getPrototypeOf(obj) does exactly the same, except that Reflect also defines a corresponding Reflect.setPrototypeOf(obj, newProto) to set the object's prototype. This is the new ES6-compliant way of updating an object's prototype.
Note that: setPrototypeOf also exists on Object (as correctly pointed out by Knu's comment)!

Side-note (addressing comments to the Q): There is a short and simple answer on 'Q: ES6 Modules vs. HTML Imports' that explains Realms and Loader objects.

Another explanation is offered by this link:

A realm object abstracts the notion of a distinct global environment, with its own global object, copy of the standard library, and "intrinsics" (standard objects that are not bound to global variables, like the initial value of Object.prototype).

Extensible web: This is the dynamic equivalent of a same-origin <iframe> without DOM.

Worth mentioning though: all this is still in draft, this is not a specification etched in stone! It's ES6, so keep browser-compatibility in mind!

  • @Spencer Killen: Well.. did this answer point your thoughts in the right direction and explain how this relates to the difference between Reflect.apply and target.apply? Or what should I add before the bounty ends?
    – GitaarLAB
    Commented Aug 31, 2014 at 18:32
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    setPrototypeOf also exists on Object.
    – Knu
    Commented Jul 8, 2015 at 8:24
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    Note that using Reflect.get as the default implementation for proxy get doesn't work nicely if you are proxying an object with prototype properties. It just complains that it doesn't work. However if you instead use Reflect.get(target, property) without passing the receiver, then it does work. Commented Nov 9, 2017 at 8:18
  • My tests where you always access properties through the proxy, results in a situation where the target is the original target that the proxy wraps, while receiver is the proxy itself. But again this could be different if you manage to access the properties differently. Commented Nov 9, 2017 at 8:44

Going by the draft document found on the wiki,


We get the line about "single ordinary object" which it clarifies in the draft. It also has the function definitions.

The wiki should be reliable since you can find a link to it from the emcascript website


I found the first link by google though and didn't have any luck finding it by searching the wiki directly.

  • Thanks, the steps taken when each method is called listed in the official spec seem pretty much they same as the ones in my link but I still can't figure out what each method does when it's called, for instance under Reflect. Apply the steps are listed 4. Perform the PrepareForTailCall abstract operation. 5. Return the result of calling the [[Call]] internal method of target with arguments thisArgument and args -------what does that mean?
    – Jim Jones
    Commented Aug 27, 2014 at 0:53
  • My best guess from looking at it is that it is referencing tail recursion in step 4 and step 5 is a reference to the prototype function. It looks like the general idea is to verify the apply method can run on what its applied to (steps 1-2), error handle (step 3) and then invoke the function apply is being run against (steps 4-5). My best guess from scanning through the documentation is that the point of the Reflect module is when your doing functionality that requires some form of introspection of the object. The use of call is also probably why it "does not have a [[Call]] internal method".
    – Blue
    Commented Aug 27, 2014 at 17:10

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