I want to create a plugin called 'myPlugin'. Which method should I use and what is the difference between these two methods? Please tell me the advantages too. I am from designing background and not much programming knowledge.
var myPlugin = {
myId:"testId",
create:function(){},
destroy:function(){}
}
OR
function myPlugin() {
this.myId = "testId";
this.create = function(){};
this.destroy = function(){};
}
The first method creates a singleton object, stored in a variable called myPlugin. Only one instance of the "plugin" exists in this form. If you know you will only need one instance, this approach is a good choice. You can also extend its capabilities to allow for both public and "private" properties by using the Module Pattern.
The second method defines an object constructor function, which will allow you to make multiple instances of the object using the new keyword. This will allow you to use as many copies of the object as you might need, and sets you up with the ability to add onto the object using its prototype.
I would go for something like:
function myPlugin () {
this.myId = "testId";
this.create = createFunction;
this.destroy = destroyFunction;
}
function createFunction() {
alert('createFunction() called');
}
function destryFunction() {
alert('destroyFunction() called');
}
my plugin = new myPlugin();
Related
I am trying to detect when a function is created, preferable through a constructor. Functions are a type of object, right? So it makes sense that when you create a new one, it calls a constructor. Is there a way to override this, for example, something like this
var old = Function.constructor;
Function.constructor = () => {
alert('new function created!');
old();
};
function asdf() {}
var k = new Function();
If this is not possible, is there a way to get all currently defined functions? I am trying to trigger a piece of code on each function run.
You can't detect function creation.
Functions are a type of object, right?
Yes.
So it makes sense that when you create a new one, it calls a constructor.
No. Or - maybe, but that constructor is internal. Just like the construction of objects from array literals, object literals, regex literals, definition of a function directly creates a native object.
Is there a way to override this?
No. You'd need to hook into the JS engine itself for that.
If this is not possible, is there a way to get all currently defined functions?
No. At best, you could try the debugging API of the JS engine and get a heap snapshot, that should contain all function objects.
I am trying to trigger a piece of code on each function run.
Let me guess, that piece of code is a function itself?
Was able to get a semi-working attempt at this. It reads only global functions but it can add code to both the front and beginning of the function. Any tips on how to improve this, as I use classes a lot when I code?
Thanks to Barmar for the idea of looping through window properties, but since you can't access local functions and class functions, this may be the closest way to do this
<script>
function prepend(name) {
console.time(name);
}
function postpend(name) {
console.timeEnd(name);
}
var filter = ['prepend', 'postpend', 'caches'];
function laggyFunction() {
var l = 0;
while (l<1000) {l++}
}
var functions = [];
for (var property in window) {
try {
if (!filter.includes(property)) { // security error on accessing cache in stackoverflow editor along with maximum call stack size exceeded if prepend and postpend are included
if (typeof window[property] === 'function') {
window[property].original = window[property];
window[property].name = property;
window[property] = function() {
prepend(this.name);
console.log(this.original);
this.original.apply(null, arguments);
postpend(this.name);
}.bind(window[property]);
functions.push(property);
}
}
} catch(e) {
console.warn(`Couldn't access property: `+property+' | '+e);
}
}
document.write(functions); // functions the prepend and postpend are applied to
laggyFunction(); // test performance of the function
</script>
New to this whole concept of prototypes in Javascript and might be confused.
Let's say I have a class called Widget, defined as:
var Widget = function (options) {
// constructor code here
}
Widget.prototype.constructor = Widget;
Widget.prototype.myGreatFunction = function(){}
Should I be able to call Widget.myGreatFunction(); or do I need to call Widget.prototype.myGreatFunction()? to run the great function?
If you use your constructor function to make an instance, you can use the function from there:
var w = new Widget();
w.myGreatFunction();
You can also use the function by referring to it via the prototype:
Widget.prototype.myGreatFunction();
Ideal way of doing so is creating an instance and using the prototypal functions.
Nevertheless as the function is stored in Widget.prototype.myGreatFunction you can definitely access it.
The functions defined in the prototype are shared resources and thats the prime advantage of using it in this manner.
var Widget = function (options) {
// constructor code here
}
Widget.prototype.constructor = Widget;
Widget.prototype.myGreatFunction = function(i){console.log('myGreatFunction', i);};
var a = new Widget();
a.myGreatFunction(1);
var b = new Widget();
b.myGreatFunction(2);
As an siginificantly simplified scenario, say I have 2 Javascript objects defined as below:
var ClassA = Class.extend({
'say': function(message) {
console.log(message);
}
... // some more methods ...
});
var ClassB = Class.extend({
init: function(obj) {
this._target = obj;
}
});
I'd suppose that in Javascript there is some kind of mechanism could enable us to do the following trick:
var b = new ClassB( new ClassA() );
b.say("hello");
I'd like to find a way to detect if there is a method called upon ClassB, and the method is not defined in ClassB, then I can automatically forward the method call to be upon ClassA, which is a member variable in ClassB.
In a realworld scenario, ClassA is an object implemented as brwoser plugin and inserted into the webpage using <object> tag. It's method is implemented in C++ code so there is no way I can tell its methods from its prototype and insert it to ClassB's prototype beforehand.
I'd like to use the technical to create a native Javascript object, with a narraw-ed version of ClassA's interface. Is there a way I can do this?
I don't think there is a quick cross-browser solution to this.
If you only need Firefox, then use __noSuchMethod__
See here: is-there-such-a-thing-as-a-catch-all-key-for-a-javascript-object
and here: javascript-getter-for-all-properties
Otherwise, I would try something like this:
var b = new ClassB( new ClassA() );
// functionToCall is a string containing the function name
function callOnB(functionToCall) {
if(typeof b[functionToCall] === function) {
b[functionToCall]();
} else {
b._target[functionToCall](); // otherwise, try calling on A
}
}
This is using the Square Bracket Notation where
b.say('hello')
is the same as
b['say']('hello')
Of course, you should probably expand this to take arguments in:
function callOnB(functionToCall, listOfArguments) {...}
Thanks to jfrej's hint on noSunchMethod, I did some more research on it and it turns out what I need is quit fit with Harmony Proxies(here and here). And an example can be found at http://jsbin.com/ucupe4/edit#source
Another related post: http://dailyjs.com/2010/03/12/nosuchmethod/
In Ruby I think you can call a method that hasn't been defined and yet capture the name of the method called and do processing of this method at runtime.
Can Javascript do the same kind of thing ?
method_missing does not fit well with JavaScript for the same reason it does not exist in Python: in both languages, methods are just attributes that happen to be functions; and objects often have public attributes that are not callable. Contrast with Ruby, where the public interface of an object is 100% methods.
What is needed in JavaScript is a hook to catch access to missing attributes, whether they are methods or not. Python has it: see the __getattr__ special method.
The __noSuchMethod__ proposal by Mozilla introduced yet another inconsistency in a language riddled with them.
The way forward for JavaScript is the Proxy mechanism (also in ECMAscript Harmony), which is closer to the Python protocol for customizing attribute access than to Ruby's method_missing.
The ruby feature that you are explaining is called "method_missing" http://rubylearning.com/satishtalim/ruby_method_missing.htm.
It's a brand new feature that is present only in some browsers like Firefox (in the spider monkey Javascript engine). In SpiderMonkey it's called "__noSuchMethod__" https://developer.mozilla.org/en/JavaScript/Reference/Global_Objects/Object/NoSuchMethod
Please read this article from Yehuda Katz http://yehudakatz.com/2008/08/18/method_missing-in-javascript/ for more details about the upcoming implementation.
Not at the moment, no. There is a proposal for ECMAScript Harmony, called proxies, which implements a similar (actually, much more powerful) feature, but ECMAScript Harmony isn't out yet and probably won't be for a couple of years.
You can use the Proxy class.
var myObj = {
someAttr: 'foo'
};
var p = new Proxy(myObj, {
get: function (target, methodOrAttributeName) {
// target is the first argument passed into new Proxy, aka. target is myObj
// First give the target a chance to handle it
if (Object.keys(target).indexOf(methodOrAttributeName) !== -1) {
return target[methodOrAttributeName];
}
// If the target did not have the method/attribute return whatever we want
// Explicitly handle certain cases
if (methodOrAttributeName === 'specialPants') {
return 'trousers';
}
// return our generic method_missing function
return function () {
// Use the special "arguments" object to access a variable number arguments
return 'For show, myObj.someAttr="' + target.someAttr + '" and "'
+ methodOrAttributeName + '" called with: ['
+ Array.prototype.slice.call(arguments).join(',') + ']';
}
}
});
console.log(p.specialPants);
// outputs: trousers
console.log(p.unknownMethod('hi', 'bye', 'ok'));
// outputs:
// For show, myObj.someAttr="foo" and "unknownMethod" called with: [hi,bye,ok]
About
You would use p in place of myObj.
You should be careful with get because it intercepts all attribute requests of p. So, p.specialPants() would result in an error because specialPants returns a string and not a function.
What's really going on with unknownMethod is equivalent to the following:
var unk = p.unkownMethod;
unk('hi', 'bye', 'ok');
This works because functions are objects in javascript.
Bonus
If you know the number of arguments you expect, you can declare them as normal in the returned function.
eg:
...
get: function (target, name) {
return function(expectedArg1, expectedArg2) {
...
I've created a library for javascript that let you use method_missing in javascript: https://github.com/ramadis/unmiss
It uses ES6 Proxies to work. Here is an example using ES6 Class inheritance. However you can also use decorators to achieve the same results.
import { MethodMissingClass } from 'unmiss'
class Example extends MethodMissingClass {
methodMissing(name, ...args) {
console.log(`Method ${name} was called with arguments: ${args.join(' ')}`);
}
}
const instance = new Example;
instance.what('is', 'this');
> Method what was called with arguments: is this
No, there is no metaprogramming capability in javascript directly analogous to ruby's method_missing hook. The interpreter simply raises an Error which the calling code can catch but cannot be detected by the object being accessed. There are some answers here about defining functions at run time, but that's not the same thing. You can do lots of metaprogramming, changing specific instances of objects, defining functions, doing functional things like memoizing and decorators. But there's no dynamic metaprogramming of missing functions as there is in ruby or python.
I came to this question because I was looking for a way to fall through to another object if the method wasn't present on the first object. It's not quite as flexible as what your asking - for instance if a method is missing from both then it will fail.
I was thinking of doing this for a little library I've got that helps configure extjs objects in a way that also makes them more testable. I had seperate calls to actually get hold of the objects for interaction and thought this might be a nice way of sticking those calls together by effectively returning an augmented type
I can think of two ways of doing this:
Prototypes
You can do this using prototypes - as stuff falls through to the prototype if it isn't on the actual object. It seems like this wouldn't work if the set of functions you want drop through to use the this keyword - obviously your object wont know or care about stuff that the other one knows about.
If its all your own code and you aren't using this and constructors ... which is a good idea for lots of reasons then you can do it like this:
var makeHorse = function () {
var neigh = "neigh";
return {
doTheNoise: function () {
return neigh + " is all im saying"
},
setNeigh: function (newNoise) {
neigh = newNoise;
}
}
};
var createSomething = function (fallThrough) {
var constructor = function () {};
constructor.prototype = fallThrough;
var instance = new constructor();
instance.someMethod = function () {
console.log("aaaaa");
};
instance.callTheOther = function () {
var theNoise = instance.doTheNoise();
console.log(theNoise);
};
return instance;
};
var firstHorse = makeHorse();
var secondHorse = makeHorse();
secondHorse.setNeigh("mooo");
var firstWrapper = createSomething(firstHorse);
var secondWrapper = createSomething(secondHorse);
var nothingWrapper = createSomething();
firstWrapper.someMethod();
firstWrapper.callTheOther();
console.log(firstWrapper.doTheNoise());
secondWrapper.someMethod();
secondWrapper.callTheOther();
console.log(secondWrapper.doTheNoise());
nothingWrapper.someMethod();
//this call fails as we dont have this method on the fall through object (which is undefined)
console.log(nothingWrapper.doTheNoise());
This doesn't work for my use case as the extjs guys have not only mistakenly used 'this' they've also built a whole crazy classical inheritance type system on the principal of using prototypes and 'this'.
This is actually the first time I've used prototypes/constructors and I was slightly baffled that you can't just set the prototype - you also have to use a constructor. There is a magic field in objects (at least in firefox) call __proto which is basically the real prototype. it seems the actual prototype field is only used at construction time... how confusing!
Copying methods
This method is probably more expensive but seems more elegant to me and will also work on code that is using this (eg so you can use it to wrap library objects). It will also work on stuff written using the functional/closure style aswell - I've just illustrated it with this/constructors to show it works with stuff like that.
Here's the mods:
//this is now a constructor
var MakeHorse = function () {
this.neigh = "neigh";
};
MakeHorse.prototype.doTheNoise = function () {
return this.neigh + " is all im saying"
};
MakeHorse.prototype.setNeigh = function (newNoise) {
this.neigh = newNoise;
};
var createSomething = function (fallThrough) {
var instance = {
someMethod : function () {
console.log("aaaaa");
},
callTheOther : function () {
//note this has had to change to directly call the fallThrough object
var theNoise = fallThrough.doTheNoise();
console.log(theNoise);
}
};
//copy stuff over but not if it already exists
for (var propertyName in fallThrough)
if (!instance.hasOwnProperty(propertyName))
instance[propertyName] = fallThrough[propertyName];
return instance;
};
var firstHorse = new MakeHorse();
var secondHorse = new MakeHorse();
secondHorse.setNeigh("mooo");
var firstWrapper = createSomething(firstHorse);
var secondWrapper = createSomething(secondHorse);
var nothingWrapper = createSomething();
firstWrapper.someMethod();
firstWrapper.callTheOther();
console.log(firstWrapper.doTheNoise());
secondWrapper.someMethod();
secondWrapper.callTheOther();
console.log(secondWrapper.doTheNoise());
nothingWrapper.someMethod();
//this call fails as we dont have this method on the fall through object (which is undefined)
console.log(nothingWrapper.doTheNoise());
I was actually anticipating having to use bind in there somewhere but it appears not to be necessary.
Not to my knowledge, but you can simulate it by initializing the function to null at first and then replacing the implementation later.
var foo = null;
var bar = function() { alert(foo()); } // Appear to use foo before definition
// ...
foo = function() { return "ABC"; } /* Define the function */
bar(); /* Alert box pops up with "ABC" */
This trick is similar to a C# trick for implementing recursive lambdas, as described here.
The only downside is that if you do use foo before it's defined, you'll get an error for trying to call null as though it were a function, rather than a more descriptive error message. But you would expect to get some error message for using a function before it's defined.
This is more of an exploratory question, seeing how the core JavaScript stuff works. I realize the convention is to not override any core JavaScript classes, but I just can't seem to wrap my head around this one.
You can create what acts like "class methods" in JavaScript by adding to the core Function prototype like this:
Function.prototype.class_method = function() {
console.log("class method called")
}
var User;
User = (function() {
function User() {}
return User;
})();
User.class_method(); // "class method called"
My question is, is there a way to add "instance methods" in a similar way? Something crazy like this, but what's below doesn't work (or make any sense):
alias = Function.prototype.constructor;
Function.prototype.constructor = function() {
child = this;
child.prototype.instance_method = function() {
console.log("instance method called");
}
alias.apply(child);
}
var user = new User();
user.instance_method(); // method doesn't exist
It's almost like you'd need to override the Function class' constructor method and access the prototype from there. Is this possible?
It does work if you add to the Object.prototype like this:
Object.prototype.instance_method = function() {
console.log("instance method");
}
var user = new User();
user.instance_method(); // "instance method called"
But that doesn't seem right either, mainly because seeing the output in the node.js console from console.log({}); change is confusing:
console.log({});
// {};
Object.prototype.instance_method = function() {
console.log("instance method");
}
console.log({});
// {"instance_method": [Function]}
If you are using node.js, you should be able to use Object.defineProperty [MDN] and make the new property non-enumerable:
Object.defineProperty(Object.prototype, 'instance_Method', {
value: function() {
console.log("instance method");
},
enumerable: false // it's already the default
});
This was introduced in ECMAScript5, so only newer browsers will support it.
It's important to understand when the prototype comes into play. It's simply an object that is a property of a function. It only has meaning when you use the new keyword. Example:
var Widget = function(val) {
this.value = val;
};
Widget.prototype.getValue = function() {
return this.value;
};
var widget1 = new Widget('test');
widget1.getValue(); // test
var widget2 = new Widget('test2');
widget2.getValue(); // test2
When new is used, the js interpreter will create a hidden _proto_ property on the instance. This proto link is simply a reference to the prototype object of the constructor function, e.g., Widget at the time the constructor was called.
When you override the Function constructor, you are literally adding something that will be on the _proto_ property of every function created after you modified Function.prototype.
If you make the statement child.prototype... = ... in your base 'class' constructor function, then that prototype will not have meaning until something 'instantiates' child, e.g., var child = new child();.
A great Resource.
To answer your question about 'instance methods', you simply need to do something like the following:
var Widget = function() {
this.method = function() {
return 'instance method';
};
};
Widget.prototype.method = function() {
return 'class method';
};
var widget1 = new Widget();
widget1.method(); // instance method
delete widget1.method;
widget1.method(); // class method
This is due to javascript's implementation of Prototypical Inheritance. The proto link I spoke of before is key here. When widget1 was first created, inside the constructor function Widget, method was attached specifically to widget1. This method will not be available to other instances. However, method on the prototype is shared across all instances of Widget.
At runtime, when the js interpreter sees widget1.method();, it first sees if widget1 has method as a property directly on it (objects in js are just hashmaps in essence, in which the keys are called 'properties'). It finds the instance method as a property in this case. However, once you delete the instance method, it will attempt to follow the _proto_ link, which is just an object reference to Widget.prototype (at the time the constructor was called). Widget.prototype.method is defined; therefore, the interpreter will execute that. If no method function is found when continuing to follow _proto_ links, it'll be a run-time error.