dom events - JavaScript Proxy Pattern Explained - Stack Overflow

admin管理员组

文章数量:1357696

I study JavaScript Proxy Pattern, but I still do not get, where I can benefit from it. I would therefore like to provide you with two examples and kindly ask you to point at the difference between them.

Please, take a look at the code below:

• What is the difference between the two addEventListener calls? One of them calls handleDrop in regular way. The other uses Proxy Pattern.
• What will I gain using Proxy pattern approach?

I tested both functions, and they both call handleDrop successfully.

DndUpload.prototype.buildDropZone = function ()
{
    var self = this,

    this.dropZone.addEventListener('drop', function (e) { self.handleDrop.call(self, e) }, false);
    this.dropZone.addEventListener('drop', self.handleDrop, false);


    DndUpload.prototype.handleDrop = function (e)
    {
        alert("test");
        ...
    };
}

You can provide me with good reference which contains very clear explanation of Proxy Pattern in JavaScript.

I study JavaScript Proxy Pattern, but I still do not get, where I can benefit from it. I would therefore like to provide you with two examples and kindly ask you to point at the difference between them.

Please, take a look at the code below:

• What is the difference between the two addEventListener calls? One of them calls handleDrop in regular way. The other uses Proxy Pattern.
• What will I gain using Proxy pattern approach?

I tested both functions, and they both call handleDrop successfully.

DndUpload.prototype.buildDropZone = function ()
{
    var self = this,

    this.dropZone.addEventListener('drop', function (e) { self.handleDrop.call(self, e) }, false);
    this.dropZone.addEventListener('drop', self.handleDrop, false);


    DndUpload.prototype.handleDrop = function (e)
    {
        alert("test");
        ...
    };
}

You can provide me with good reference which contains very clear explanation of Proxy Pattern in JavaScript.

• javascript
• dom-events
• proxy-pattern

Share Improve this question Follow edited Apr 17, 2021 at 21:38 Brian Tompsett - 汤莱恩 5,8937272 gold badges6161 silver badges133133 bronze badges asked Sep 13, 2012 at 18:21 Bunkai.SatoriBunkai.Satori 4,7581313 gold badges5252 silver badges7878 bronze badges 1

• Try console.log(this) instead of your alert, and it should bee more clear. – bfavaretto Commented Sep 13, 2012 at 18:29

Add a ment  | 

3 Answers 3

Sorted by: Reset to default 11

So what you're describing in your example isn't so much a demonstration of the Proxy pattern as much as a demonstration of confusion regarding the "calling object" and how it works in JavaScript.

In JavaScript, functions are "first-class." This essentially means that functions are data just like any other data. So let's consider the following situation:

var fn = (function () { return this.x; }),
    a = {
        x : 1,
        fn : fn,
    },
    x = 2,
    nothing = (function (z) { return z; });

So, we have an object a, which has two properties: fn and x. We also have variables x, fn (which is a function returning this.x), and nothing (which returns whatever it gets passed).

If we evaluate a.x, we get 1. If we evaluate x, we get 2. Pretty simple, eh? Now, if we evaluate nothing(a.x), then we get 1. That's also very simple. But it's important to realize that the value 1 associated with the property a.x is not in any way connected to the object a. It exists independently and can be passed around simply as a value.

In JavaScript, functions work the same way. Functions that are properties (often called "methods") can be passed as simple references. However, in doing so, they can bee disconnected from their object. This bees important when you use the this keyword inside a function.

The this keyword references the "calling object." That's the object that is associated with a function when that function is evaluated. There are three basic ways to set the calling object for a function:

1. If the function is called using the dot operator (e.g. a.fn()), the relevant object (in the example, a) is set as the calling object.
2. If the function is called using the function's call or apply properties, then you can explicitly set the calling object (we'll see why this is useful in a second).
3. If no calling object is set through method 1 or method 2, the global object is used (in a browser, this is typically called window).

So, back to our code. If we call a.fn(), it will evaluate as 1. That's expected because the this keyword in the function will be set to a due to the use of the dot operator. However, if we call simply fn(), it will return 2 because it is referencing the x property of the global object (meaning our global x is used).

Now, here's where things get tricky. What if you called: nothing(a.fn)()? You might be surprised that the result is 2. This is because passing a.fn into nothing() passes a reference to fn, but does not retain the calling object!

This is the same concept as what's going on in your coding example. If your function handleDrop were to use the this keyword, you would find it has a different value depending on which handler form you use. This is because in your second example, you're passing a reference to handleDrop, but as with our nothing(a.fn)() example, by the time it gets called, the calling object reference is lost.

So let's add something else to the puzzle:

var b = {
    x : 3
};

You'll note that while b has an x property (and therefore satisfies the requirements for fn's use of this), it doesn't have a property referencing fn. So if we wanted to call the fn function with its this set to b, it might seem we need to add a new property to b. But instead we can use the aforementioned apply method on fn to explicitly set b as the calling object:

fn.apply(b); //is 3

This can be used to "permanently" bind a calling object to a function by creating a new function "wrapper." It's not really permanently binding, it's just creating a new function that calls the old function with the desired calling object. Such a tool is often written like so:

Function.prototype.bind = function (obj) {
    var self = this;
    return function() { 
        return self.apply(obj, arguments);
    };
};

So after executing that code, we could do the following:

nothing(a.fn.bind(a))(); //is 1.

It's nothing tricky. In fact, the bind() property is built into ES5 and works pretty much like the simple code above. And our bind code is actually a really plicated way to do something that we can do more simply. Since a has fn as a property, we can use the dot operator to call it directly. We can skip all the confusing use of call and apply. We just need to make sure when the function gets called, it gets called using the dot operator. We can see how to do it above, but in practice, it's far simpler and more intuitive:

nothing(function () { return a.fn(); })(); //is 1

Once you have an understanding of how data references can be stored in closure scope, how functions are first-class objects, and how the calling object works, this all bees very simple to understand and reasonably intuitive.

As for "proxies," those also exploit the same concepts to hook into functions. So, let's say that you wanted to count the number of times a.fn gets called. You can do that by inserting a proxy, like so (making use of some concepts from our bind code from above):

var numCalls = (function () {
    var calls = 0, target = a.fn;

    a.fn = (function () {
         calls++;
         return target.apply(a, arguments);
    });

    return (function () {
        return calls;
    });
}());

So now, whenever you call numCalls(), it will return the number of times a.fn() was called without actually modifying the functionality of a.fn! which is pretty cool. However, you must keep in mind that you did change the function referenced by a.fn, so looking way back to the beginning of our code, you'll notice that a.fn is no longer the same as fn and can't be used interchangeably anymore. But the reasons should now be pretty obvious!

I know that was basically a week of JavaScript education in a couple pages of text, but that's about as simple as it gets. Once you understand the concepts, the functionality, usefulness, and power of many JavaScript patterns bee very simple to understand.

Hope that made things clearer!

UPDATE: Thanks to @pimvdb for pointing out my unnecessary use of [].slice.call(arguments, 0). I have removed it because it's, well, unnecessary.

Basically, passing self.handleDrop directly is functionally equivalent to passing the following function:

function() {
  return self.handleDrop.apply(this, arguments);
}

because everything is passed through to the original function:

• The this value
• The arguments
• The return value

With this in mind, pare your functions as follows:

function(e) { self.handleDrop.call(self, e) }
function() { return self.handleDrop.apply(this, arguments); }

The difference with your proxy way is:

• It doesn't pass the return value through.
• It doesn't pass all arguments through (only the first, e)
• It doesn't pass the this value through, but uses a predefined one: self.

Now, the first two items don't make a difference here, because addEventListener doesn't care about the return value, and it also only passes one argument anyway.

But the third item is important: it sets a different this value in the function. By default, this is the element you bind the event to (it it set by the browser). Using the proxy way, you can set another this value.

Now, in your snippet it is not fully clear why you're setting a prototype function each time buildDropZone is called. Usually you define prototype functions only once. But when your handler handleDrop is called using the proxy way, this refers to the DndUpload instance, which is consistent with prototype functions in general.

Consider the code below:

function printThis() {
  console.log(this);
}

var someObject = {
  performTest : function() {
    var self = this;

    someOtherObject.higherOrderFunction(printThis);
    someOtherObject.higherOrderFunction(function(){printThis.call(self)});
  }
}

var someOtherObject = {
  higherOrderFunction : function(f) {
      f();
  }
}

What will someOtherObject.higherOrderFunction(printThis) return? How about someOtherObject.higherOrderFunction(function(){printThis.call(self)})

The answer to the first question depends on who and how you call someObject.performTest(). If I just call someObject.performTest() from a global context, it will probably print Window.

The second one will always print the someObject instance no matter what.

The closures or 'proxy pattern' as you call it es in handy when you want to control exactly the execution context of a function.

Note: this in javascript does not behave like it does in other languages(in Java for example).

本文标签： dom eventsJavaScript Proxy Pattern ExplainedStack Overflow