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I need to do some experiment and I need to know some kind of unique identifier for objects in javascript, so I can see if they are the same. I don't want to use equality operators, I need something like the id() function in python.
Does something like this exist ?
Update My original answer below was written 6 years ago in a style befitting the times and my understanding. In response to some conversation in the comments, a more modern approach to this is as follows:
(function() {
if ( typeof Object.id != "undefined" ) return;
var id = 0;
Object.id = function(o) {
if ( typeof o.__uniqueid != "undefined" ) {
return o.__uniqueid;
}
Object.defineProperty(o, "__uniqueid", {
value: ++id,
enumerable: false,
// This could go either way, depending on your
// interpretation of what an "id" is
writable: false
});
return o.__uniqueid;
};
})();
var obj = { a: 1, b: 1 };
console.log(Object.id(obj));
console.log(Object.id([]));
console.log(Object.id({}));
console.log(Object.id(/./));
console.log(Object.id(function() {}));
for (var k in obj) {
if (obj.hasOwnProperty(k)) {
console.log(k);
}
}
// Logged keys are `a` and `b`
If you have archaic browser requirements, check here for browser compatibility for Object.defineProperty.
The original answer is kept below (instead of just in the change history) because I think the comparison is valuable.
You can give the following a spin. This also gives you the option to explicitly set an object's ID in its constructor or elsewhere.
(function() {
if ( typeof Object.prototype.uniqueId == "undefined" ) {
var id = 0;
Object.prototype.uniqueId = function() {
if ( typeof this.__uniqueid == "undefined" ) {
this.__uniqueid = ++id;
}
return this.__uniqueid;
};
}
})();
var obj1 = {};
var obj2 = new Object();
console.log(obj1.uniqueId());
console.log(obj2.uniqueId());
console.log([].uniqueId());
console.log({}.uniqueId());
console.log(/./.uniqueId());
console.log((function() {}).uniqueId());
Take care to make sure that whatever member you use to internally store the unique ID doesn't collide with another automatically created member name.
So far as my observation goes, any answer posted here can have unexpected side effects.
In ES2015-compatible enviroment, you can avoid any side effects by using WeakMap.
const id = (() => {
let currentId = 0;
const map = new WeakMap();
return (object) => {
if (!map.has(object)) {
map.set(object, ++currentId);
}
return map.get(object);
};
})();
id({}); //=> 1
Latest browsers provide a cleaner method for extending Object.prototype. This code will make the property hidden from property enumeration (for p in o)
For the browsers that implement defineProperty, you can implement uniqueId property like this:
(function() {
var id_counter = 1;
Object.defineProperty(Object.prototype, "__uniqueId", {
writable: true
});
Object.defineProperty(Object.prototype, "uniqueId", {
get: function() {
if (this.__uniqueId == undefined)
this.__uniqueId = id_counter++;
return this.__uniqueId;
}
});
}());
For details, see https://developer.mozilla.org/en/JavaScript/Reference/Global_Objects/Object/defineProperty
Actually, you don't need to modify the object prototype and add a function there. The following should work well for your purpose.
var __next_objid=1;
function objectId(obj) {
if (obj==null) return null;
if (obj.__obj_id==null) obj.__obj_id=__next_objid++;
return obj.__obj_id;
}
For browsers implementing the Object.defineProperty() method, the code below generates and returns a function that you can bind to any object you own.
This approach has the advantage of not extending Object.prototype.
The code works by checking if the given object has a __objectID__ property, and by defining it as a hidden (non-enumerable) read-only property if not.
So it is safe against any attempt to change or redefine the read-only obj.__objectID__ property after it has been defined, and consistently throws a nice error instead of silently fail.
Finally, in the quite extreme case where some other code would already have defined __objectID__ on a given object, this value would simply be returned.
var getObjectID = (function () {
var id = 0; // Private ID counter
return function (obj) {
if(obj.hasOwnProperty("__objectID__")) {
return obj.__objectID__;
} else {
++id;
Object.defineProperty(obj, "__objectID__", {
/*
* Explicitly sets these two attribute values to false,
* although they are false by default.
*/
"configurable" : false,
"enumerable" : false,
/*
* This closure guarantees that different objects
* will not share the same id variable.
*/
"get" : (function (__objectID__) {
return function () { return __objectID__; };
})(id),
"set" : function () {
throw new Error("Sorry, but 'obj.__objectID__' is read-only!");
}
});
return obj.__objectID__;
}
};
})();
Typescript version of #justin answer, ES6 compatible, using Symbols to prevent any key collision and added into the global Object.id for convenience. Just copy paste the code below, or put it into an ObjecId.ts file you will import.
(enableObjectID)();
declare global {
interface ObjectConstructor {
id: (object: any) => number;
}
}
const uniqueId: symbol = Symbol('The unique id of an object');
export function enableObjectID(): void {
if (typeof Object['id'] !== 'undefined') {
return;
}
let id: number = 0;
Object['id'] = (object: any) => {
const hasUniqueId: boolean = !!object[uniqueId];
if (!hasUniqueId) {
object[uniqueId] = ++id;
}
return object[uniqueId];
};
}
Example of usage:
console.log(Object.id(myObject));
jQuery code uses it's own data() method as such id.
var id = $.data(object);
At the backstage method data creates a very special field in object called "jQuery" + now() put there next id of a stream of unique ids like
id = elem[ expando ] = ++uuid;
I'd suggest you use the same method as John Resig obviously knows all there is about JavaScript and his method is based on all that knowledge.
For the purpose of comparing two objects, the simplest way to do this would be to add a unique property to one of the objects at the time you need to compare the objects, check if the property exists in the other and then remove it again. This saves overriding prototypes.
function isSameObject(objectA, objectB) {
unique_ref = "unique_id_" + performance.now();
objectA[unique_ref] = true;
isSame = objectB.hasOwnProperty(unique_ref);
delete objectA[unique_ref];
return isSame;
}
object1 = {something:true};
object2 = {something:true};
object3 = object1;
console.log(isSameObject(object1, object2)); //false
console.log(isSameObject(object1, object3)); //true
I faced the same problem and here's the solution I implemented with ES6
code
let id = 0; // This is a kind of global variable accessible for every instance
class Animal {
constructor(name){
this.name = name;
this.id = id++;
}
foo(){}
// Executes some cool stuff
}
cat = new Animal("Catty");
console.log(cat.id) // 1
I've used code like this, which will cause Objects to stringify with unique strings:
Object.prototype.__defineGetter__('__id__', function () {
var gid = 0;
return function(){
var id = gid++;
this.__proto__ = {
__proto__: this.__proto__,
get __id__(){ return id }
};
return id;
}
}.call() );
Object.prototype.toString = function () {
return '[Object ' + this.__id__ + ']';
};
the __proto__ bits are to keep the __id__ getter from showing up in the object. this has been only tested in firefox.
Notwithstanding the advice not to modify Object.prototype, this can still be really useful for testing, within a limited scope. The author of the accepted answer changed it, but is still setting Object.id, which doesn't make sense to me. Here's a snippet that does the job:
// Generates a unique, read-only id for an object.
// The _uid is generated for the object the first time it's accessed.
(function() {
var id = 0;
Object.defineProperty(Object.prototype, '_uid', {
// The prototype getter sets up a property on the instance. Because
// the new instance-prop masks this one, we know this will only ever
// be called at most once for any given object.
get: function () {
Object.defineProperty(this, '_uid', {
value: id++,
writable: false,
enumerable: false,
});
return this._uid;
},
enumerable: false,
});
})();
function assert(p) { if (!p) throw Error('Not!'); }
var obj = {};
assert(obj._uid == 0);
assert({}._uid == 1);
assert([]._uid == 2);
assert(obj._uid == 0); // still
This one will calculate a HashCode for each object, optimized for string, number and virtually anything that has a getHashCode function. For the rest it assigns a new reference number.
(function() {
var __gRefID = 0;
window.getHashCode = function(ref)
{
if (ref == null) { throw Error("Unable to calculate HashCode on a null reference"); }
// already cached reference id
if (ref.hasOwnProperty("__refID")) { return ref["__refID"]; }
// numbers are already hashcodes
if (typeof ref === "number") { return ref; }
// strings are immutable, so we need to calculate this every time
if (typeof ref === "string")
{
var hash = 0, i, chr;
for (i = 0; i < ref.length; i++) {
chr = ref.charCodeAt(i);
hash = ((hash << 5) - hash) + chr;
hash |= 0;
}
return hash;
}
// virtual call
if (typeof ref.getHashCode === "function") { return ref.getHashCode(); }
// generate and return a new reference id
return (ref["__refID"] = "ref" + __gRefID++);
}
})();
If you came here because you deal with class instances like me you can use static vars/methods to reference instances by a custom unique id:
class Person {
constructor( name ) {
this.name = name;
this.id = Person.ix++;
Person.stack[ this.id ] = this;
}
}
Person.ix = 0;
Person.stack = {};
Person.byId = id => Person.stack[ id ];
let store = {};
store[ new Person( "joe" ).id ] = true;
store[ new Person( "tim" ).id ] = true;
for( let id in store ) {
console.log( Person.byId( id ).name );
}
Here's a variant of Justin Johnson's answer that provides a scalability benefit when you are creating billions of objects for which you want the ID.
Specifically, rather than solely using a 1-up counter (that might overflow the representational limits of Number, and can't be cycled without risking reusing an ID), we register the object and its newly generated ID with a FinalizationRegistry, such that, at some point after the object is garbage collected, the ID is returned to a freelist for reuse by a newly created object (Python's id function can also return the same ID for multiple objects, so long as the existence of the two objects does not overlap in time).
Limitations:
It only works on objects, not JS primitives (this is somewhat reasonable; unlike Python, where everything is an object, JS primitives typically aren't, and the id function logically only works on objects, since primitives need not "exist" in any reasonably identifiable way).
If the code creates (without discarding) billions of objects, asks for their IDs, then releases them all at once and never asks for an ID again, the recovered IDs in the freelist constitute a memory leak of sorts. Hopefully the JS optimizer stores them efficiently, so the cost remains a small fraction of what the objects themselves cost, but it's still a cost. In cases where objects with IDs are regularly created and destroyed, the wasted memory is roughly tied to the maximum number of such ID-ed objects in existence at any given point in time.
If those limitations aren't a problem though, this works fairly well. I modified the testing code a bit to hand control back to the event loop (and hopefully the garbage collector) now and again while creating 10M garbage objects to ID, and on my browser, nearly half the object IDs get reclaimed for reuse; the final loop making five objects and IDing them produces IDs just above 1M, when over 2M objects had IDs generated at some point. In a realistic scenario with meaningful code executing and real async usage I'd expect better results simply because there would be more opportunities for the finalization registry to perform cleanup.
async function sleep(ms) {
await _sleep(ms);
}
function _sleep(ms) {
return new Promise((resolve) => setTimeout(resolve, ms));
}
(function() {
if ( typeof Object.id != "undefined" ) return;
var freelist = []; // Stores previously used IDs for reuse when an object with
// an ID is garbage collected, so creating and dropping billions
// of objects doesn't consume all available IDs
const registry = new FinalizationRegistry((freeid) => {
freelist.push(freeid);
});
var id = 0;
Object.id = function(o) {
if ( typeof o.__uniqueid != "undefined" ) {
return o.__uniqueid;
}
Object.defineProperty(o, "__uniqueid", {
value: freelist.length ? freelist.pop() : ++id,
enumerable: false,
// This could go either way, depending on your
// interpretation of what an "id" is
writable: false
});
registry.register(o, o.__uniqueid); // Sometime after o is collected, its ID
// will be reclaimed for use by a new object
return o.__uniqueid;
};
})();
var obj = { a: 1, b: 1 };
console.log(Object.id(obj));
console.log(Object.id([]));
console.log(Object.id({}));
console.log(Object.id(/./));
var idsum = 0; // So we do something real to prevent optimizing out code
// Make a ton of temporary objects with IDs, handing control back to the event loop
// every once in a while to (hopefully) see some IDs returned to the pool
for (var i = 0; i < 1000000; ++i) {
idsum += Object.id({c: i});
}
sleep(10).then(() => {
console.log(Object.id(function() { console.log("Hey"); }));
for (var i = 1000000; i < 2000000; ++i) {
idsum += Object.id({c: i});
}
console.log(Object.id(function() { console.log("There"); }));
sleep(10).then(() => {
for (var i = 0; i < 5; ++i) {
console.log(Object.id([i]));
}
console.log(idsum);
});
});
for (var k in obj) {
if (obj.hasOwnProperty(k)) {
console.log(k);
}
}
// Logged keys are `a` and `b`
It's something that's really bothering me, and it's also kind of important since it's part of my job.
I made an object that basically parses a hostname and puts labels on the different parts of that name.
Sounds pretty straightforward, right? HOWEVER, when I create several instances of that object in a row, every other instance turns out blank, with nothing but _proto and a few functions. No data whatsoever.
It might be important to note that I'm using an old version of Chrome (which I have to use, since the network at work is closed-circuit and it's impossible to update the software beyond what's on the net). The same code works at home.
WHAT AM I DOING WRONG, THEN?
Thanks in advance.
var reg = /([A,B,C,D,E])(\d{3})(\d{2})([F,G,H])(\d{2})/i;
var hostParser = function(hostname) {
var parsed = reg.exec(hostname);
if (parsed) {
this.prefix = parsed[1];
this.arena = parsed[2];
this.waitingRoom = parsed[3];
this.adminStatus = parsed[4];
this.ID = parsed[5];
this.hostname = hostname.toUpperCase();
return this;
}
return false;
};
Array.prototype.eliminateDuplicates = function() {
var r = [];
this.forEach(function(n) {
if (r.indexOf(n) < 0)
r.push(n);
});
return r;
};
Array.prototype.trim = function() {
var r = [];
this.forEach(function (n) {
if (!/^\s?$/.test(n))
r.push(n);
});
return r;
};
var list = [
'A40800G01',
'A40800G02',
'A40800G03',
'A40800G04',
'A40800G05',
'A40800G06',
'A40800G07',
'A40800G08',
'A40800G09'
];
list.trim().eliminateDuplicates().forEach(function (item) {
var itemParser = new hostParser(item);
console.log(itemParser);
});
This was indeed a bug with that particular Chrome version. Not being able to update, I duplicated array items on purpose and it worked.
I have the next object:
var persons= {};
persons["Matt"].push("A");
persons["Matt"].push("B");
persons["Matt"].push("C");
And I want to know if the object contains the element which I try to insert.
E.g:
persons["Matt"].push("A"); /* The element A already exist... And I don't want duplicate elements.*/
Anybody know one way to make it?
EDIT WITH MORE DETAILS:
I have a the next code:
function insertIfNotThere(array, item) {
if (array.indexOf(item) === -1) {
array.push(item);
}
}
function EventManager(target) {
var target = target || window, events = {};
this.observe = function(eventName, cb) {
if (events[eventName]){
insertIfNotThere(events[eventName], cb);
}else{
events[eventName] = []; events[eventName].push(cb);
}
return target;
};
this.fire = function(eventName) {
if (!events[eventName]) return false;
for (var i = 0; i < events[eventName].length; i++) {
events[eventName][i].apply(target, Array.prototype.slice.call(arguments, 1));
}
};
}
I use your method for checking if the element with the content indicated exist. But... It push the element ever... I don't know what's happening...
First things first. When you do
persons= {};
you are creating a global property called persons and assigning an empty object to it. You might want a local variable here. So, change it to
var persons = {};
And then, when you create a new key in the object, by default, the value will be undefined. In your case you need to store an array. So, you have to initialize it like this
persons['Matt'] = [];
and then you can use the Array.prototype.indexOf function to find out if the item being added is already there in the array or not (it returns -1 if the item is not found in the array), like this
if (persons['Matt'].indexOf("A") === -1) {
persons['Matt'].push("A");
}
if (persons['Matt'].indexOf("B") === -1) {
persons['Matt'].push("B");
}
You can create a function to do this
function insertIfNotThere(array, item) {
if (array.indexOf(item) === -1) {
array.push(item);
}
}
var persons = {};
persons['Matt'] = [];
insertIfNotThere(persons['Matt'], 'A');
insertIfNotThere(persons['Matt'], 'B');
// This will be ignored, as `A` is already there in the array
insertIfNotThere(persons['Matt'], 'A');
Use indexOf to check for the existence of A. If it doesn't exist (is -1), add it to the array:
if (persons['Matt'].indexOf('A') === -1) {
persons['Matt'].push('A');
}
Is there a way in Javascript to get a list or dump the contents of all global variables declared by Javascript/jQuery script on a page? I am particularly interested in arrays. If I can get the array names, it will be enough to me. Seeing its values is a bonus.
Object.keys( window );
This will give you an Array of all enumerable properties of the window object, (which are global variables).
For older browsers, include the compatibility patch from MDN.
To see its values, then clearly you'll just want a typical enumerator, like for-in.
You should note that I mentioned that these methods will only give you enumerable properties. Typically those will be ones that are not built-in by the environment.
It is possible to add non-enumerable properties in ES5 supported browsers. These will not be included in Object.keys, or when using a for-in statement.
As noted by #Raynos, you can Object.getOwnPropertyNames( window ) for non-enumerables. I didn't know that. Thanks #Raynos!
So to see the values that include enumerables, you'd want to do this:
var keys = Object.getOwnPropertyNames( window ),
value;
for( var i = 0; i < keys.length; ++i ) {
value = window[ keys[ i ] ];
console.log( value );
}
The following function only dumps global variables that have been added to the window object:
(function(){
//noprotect <- this comment prevents jsbin interference
var windowProps = function() {
// debugger;
var result = {};
for (var key in window) {
if (Object.prototype.hasOwnProperty.call(window, key)) {
if ((key|0) !== parseInt(key,10)) {
result[key] = 1;
}
}
}
window.usedVars = result;
};
var iframe = document.createElement('iframe');
iframe.style.display = 'none';
iframe.src = 'about:blank';
document.body.appendChild(iframe);
var fwin = iframe.contentWindow;
var fdoc = fwin.document;
fdoc.open('text/html','replace');
fdoc.write('<!DOCTYPE html><body><script>window.onload = ' + windowProps.toString() + '<\u002Fscript>');
fdoc.close();
var button = document.createElement('input');
button.type = 'button';
button.value = 'go';
document.body.appendChild(button);
button.onclick = function() {
var clean = fwin.usedVars;
windowProps();
var dirty = window.usedVars;
for (var key in clean) {
delete dirty[key];
}
for (var variable in dirty) {
var div = document.createElement('div');
div.textContent = variable;
document.body.appendChild(div);
}
document.body.removeChild(button);
document.body.removeChild(iframe);
};
})();
It works by using an iframe to get a clean list of global window variables, then comparing that with the list of global variables in the current window. It uses a button because the iframe runs asynchronously. The code uses a global variable because that makes the code easier to understand.
You can see it working here or here, although note that these examples show many global variables "leaked" by jsbin itself (different depending on which link you use).
Since all global variables are properties of the window object, you can get them using:
for(var key in window) { // all properties
if(Array.isArray(window[key])) { // only arrays
console.log(key, window[key]); // log key + value
}
}
Since all default/inherited properties are not plain arrays (mostly host objects or functions), the Array.isArray check is sufficient.
To get "globals" object you can use this function:
function globals() { return this; }
Here is the test:
http://jsfiddle.net/EERuf/
window is the global object in a browser, and you can use a for..in loop to loop through its properties:
if(!Array.isArray) {
Array.isArray = function(obj) {
return Object.prototype.toString.call(obj) === '[object Array]';
};
}
for(var x in window) {
if(Array.isArray(window[x])) {
console.log('Found array ' + x + ' in ' + window + ', it has the value ' + window[x] + '!');
}
}
You can use npm package called get-globals. It compares properties of window with fresh-created iframe to print only variables declared by dev(s), not browser vendor.
Greasymonkey script to get leaked globals
// ==UserScript==
// #name SCI
// #namespace ns
// #version 1
// #grant none
// #run-at document-start
// ==/UserScript==
console.log('SCI loaded');
var SCI = window.SCI = {
defprops: [],
collect: function(){
var wprops = [];
for(var prop in window){
wprops.push(prop);
}
return wprops;
},
collectDef: function(){
this.defprops = this.collect();
},
diff: function(){
var def = this.defprops,
cur = this.collect();
var dif = [];
for(var i = 0; i < cur.length; i++){
var p = cur[i];
if(def.indexOf(p) === -1){
dif.push(p);
}
}
return dif;
},
diffObj: function(){
var diff = this.diff();
var dobj = {};
for (var i = 0; i < diff.length; i++){
var p = diff[i];
dobj[p]=window[p];
}
return dobj;
}
};
SCI.collectDef();
To use run in console SCI.diff() to get list of names or SCI.diffObj() to get object with variables
Here’s a simple, more modern snippet that logs an object with the globals and their values (rather than just the global variable names), which is usually what I’m looking for when debugging:
(function () {
const iframe = document.createElement('iframe')
iframe.setAttribute('hidden', '')
iframe.src = 'about:blank'
iframe.onload = function () {
// Iterate through the properties of the current `window` and reduce the output
// to only properties that are not in the iframe’s `window`.
console.debug(Object.entries(window).reduce((reducedObj, [property, value]) => {
// Check if the property does not exist in the iframe and if so, add it to
// the output object.
if (! (property in iframe.contentWindow))
reducedObj[property] = value
return reducedObj
}, {})))
// Clean up the iframe by removing it from the DOM.
iframe.remove()
}
// Append the iframe to the DOM to kick off loading.
document.body.append(iframe)
})()
Tip: You can also swap 'about:blank' with window.location to get only the globals set since the page was first loaded.
This uses an iframe to determine which properties to ignore like robocat’s answer, but it’s based on David Walsh’s solution.
I need to do some experiment and I need to know some kind of unique identifier for objects in javascript, so I can see if they are the same. I don't want to use equality operators, I need something like the id() function in python.
Does something like this exist ?
Update My original answer below was written 6 years ago in a style befitting the times and my understanding. In response to some conversation in the comments, a more modern approach to this is as follows:
(function() {
if ( typeof Object.id != "undefined" ) return;
var id = 0;
Object.id = function(o) {
if ( typeof o.__uniqueid != "undefined" ) {
return o.__uniqueid;
}
Object.defineProperty(o, "__uniqueid", {
value: ++id,
enumerable: false,
// This could go either way, depending on your
// interpretation of what an "id" is
writable: false
});
return o.__uniqueid;
};
})();
var obj = { a: 1, b: 1 };
console.log(Object.id(obj));
console.log(Object.id([]));
console.log(Object.id({}));
console.log(Object.id(/./));
console.log(Object.id(function() {}));
for (var k in obj) {
if (obj.hasOwnProperty(k)) {
console.log(k);
}
}
// Logged keys are `a` and `b`
If you have archaic browser requirements, check here for browser compatibility for Object.defineProperty.
The original answer is kept below (instead of just in the change history) because I think the comparison is valuable.
You can give the following a spin. This also gives you the option to explicitly set an object's ID in its constructor or elsewhere.
(function() {
if ( typeof Object.prototype.uniqueId == "undefined" ) {
var id = 0;
Object.prototype.uniqueId = function() {
if ( typeof this.__uniqueid == "undefined" ) {
this.__uniqueid = ++id;
}
return this.__uniqueid;
};
}
})();
var obj1 = {};
var obj2 = new Object();
console.log(obj1.uniqueId());
console.log(obj2.uniqueId());
console.log([].uniqueId());
console.log({}.uniqueId());
console.log(/./.uniqueId());
console.log((function() {}).uniqueId());
Take care to make sure that whatever member you use to internally store the unique ID doesn't collide with another automatically created member name.
So far as my observation goes, any answer posted here can have unexpected side effects.
In ES2015-compatible enviroment, you can avoid any side effects by using WeakMap.
const id = (() => {
let currentId = 0;
const map = new WeakMap();
return (object) => {
if (!map.has(object)) {
map.set(object, ++currentId);
}
return map.get(object);
};
})();
id({}); //=> 1
Latest browsers provide a cleaner method for extending Object.prototype. This code will make the property hidden from property enumeration (for p in o)
For the browsers that implement defineProperty, you can implement uniqueId property like this:
(function() {
var id_counter = 1;
Object.defineProperty(Object.prototype, "__uniqueId", {
writable: true
});
Object.defineProperty(Object.prototype, "uniqueId", {
get: function() {
if (this.__uniqueId == undefined)
this.__uniqueId = id_counter++;
return this.__uniqueId;
}
});
}());
For details, see https://developer.mozilla.org/en/JavaScript/Reference/Global_Objects/Object/defineProperty
Actually, you don't need to modify the object prototype and add a function there. The following should work well for your purpose.
var __next_objid=1;
function objectId(obj) {
if (obj==null) return null;
if (obj.__obj_id==null) obj.__obj_id=__next_objid++;
return obj.__obj_id;
}
For browsers implementing the Object.defineProperty() method, the code below generates and returns a function that you can bind to any object you own.
This approach has the advantage of not extending Object.prototype.
The code works by checking if the given object has a __objectID__ property, and by defining it as a hidden (non-enumerable) read-only property if not.
So it is safe against any attempt to change or redefine the read-only obj.__objectID__ property after it has been defined, and consistently throws a nice error instead of silently fail.
Finally, in the quite extreme case where some other code would already have defined __objectID__ on a given object, this value would simply be returned.
var getObjectID = (function () {
var id = 0; // Private ID counter
return function (obj) {
if(obj.hasOwnProperty("__objectID__")) {
return obj.__objectID__;
} else {
++id;
Object.defineProperty(obj, "__objectID__", {
/*
* Explicitly sets these two attribute values to false,
* although they are false by default.
*/
"configurable" : false,
"enumerable" : false,
/*
* This closure guarantees that different objects
* will not share the same id variable.
*/
"get" : (function (__objectID__) {
return function () { return __objectID__; };
})(id),
"set" : function () {
throw new Error("Sorry, but 'obj.__objectID__' is read-only!");
}
});
return obj.__objectID__;
}
};
})();
Typescript version of #justin answer, ES6 compatible, using Symbols to prevent any key collision and added into the global Object.id for convenience. Just copy paste the code below, or put it into an ObjecId.ts file you will import.
(enableObjectID)();
declare global {
interface ObjectConstructor {
id: (object: any) => number;
}
}
const uniqueId: symbol = Symbol('The unique id of an object');
export function enableObjectID(): void {
if (typeof Object['id'] !== 'undefined') {
return;
}
let id: number = 0;
Object['id'] = (object: any) => {
const hasUniqueId: boolean = !!object[uniqueId];
if (!hasUniqueId) {
object[uniqueId] = ++id;
}
return object[uniqueId];
};
}
Example of usage:
console.log(Object.id(myObject));
jQuery code uses it's own data() method as such id.
var id = $.data(object);
At the backstage method data creates a very special field in object called "jQuery" + now() put there next id of a stream of unique ids like
id = elem[ expando ] = ++uuid;
I'd suggest you use the same method as John Resig obviously knows all there is about JavaScript and his method is based on all that knowledge.
For the purpose of comparing two objects, the simplest way to do this would be to add a unique property to one of the objects at the time you need to compare the objects, check if the property exists in the other and then remove it again. This saves overriding prototypes.
function isSameObject(objectA, objectB) {
unique_ref = "unique_id_" + performance.now();
objectA[unique_ref] = true;
isSame = objectB.hasOwnProperty(unique_ref);
delete objectA[unique_ref];
return isSame;
}
object1 = {something:true};
object2 = {something:true};
object3 = object1;
console.log(isSameObject(object1, object2)); //false
console.log(isSameObject(object1, object3)); //true
I faced the same problem and here's the solution I implemented with ES6
code
let id = 0; // This is a kind of global variable accessible for every instance
class Animal {
constructor(name){
this.name = name;
this.id = id++;
}
foo(){}
// Executes some cool stuff
}
cat = new Animal("Catty");
console.log(cat.id) // 1
I've used code like this, which will cause Objects to stringify with unique strings:
Object.prototype.__defineGetter__('__id__', function () {
var gid = 0;
return function(){
var id = gid++;
this.__proto__ = {
__proto__: this.__proto__,
get __id__(){ return id }
};
return id;
}
}.call() );
Object.prototype.toString = function () {
return '[Object ' + this.__id__ + ']';
};
the __proto__ bits are to keep the __id__ getter from showing up in the object. this has been only tested in firefox.
Notwithstanding the advice not to modify Object.prototype, this can still be really useful for testing, within a limited scope. The author of the accepted answer changed it, but is still setting Object.id, which doesn't make sense to me. Here's a snippet that does the job:
// Generates a unique, read-only id for an object.
// The _uid is generated for the object the first time it's accessed.
(function() {
var id = 0;
Object.defineProperty(Object.prototype, '_uid', {
// The prototype getter sets up a property on the instance. Because
// the new instance-prop masks this one, we know this will only ever
// be called at most once for any given object.
get: function () {
Object.defineProperty(this, '_uid', {
value: id++,
writable: false,
enumerable: false,
});
return this._uid;
},
enumerable: false,
});
})();
function assert(p) { if (!p) throw Error('Not!'); }
var obj = {};
assert(obj._uid == 0);
assert({}._uid == 1);
assert([]._uid == 2);
assert(obj._uid == 0); // still
This one will calculate a HashCode for each object, optimized for string, number and virtually anything that has a getHashCode function. For the rest it assigns a new reference number.
(function() {
var __gRefID = 0;
window.getHashCode = function(ref)
{
if (ref == null) { throw Error("Unable to calculate HashCode on a null reference"); }
// already cached reference id
if (ref.hasOwnProperty("__refID")) { return ref["__refID"]; }
// numbers are already hashcodes
if (typeof ref === "number") { return ref; }
// strings are immutable, so we need to calculate this every time
if (typeof ref === "string")
{
var hash = 0, i, chr;
for (i = 0; i < ref.length; i++) {
chr = ref.charCodeAt(i);
hash = ((hash << 5) - hash) + chr;
hash |= 0;
}
return hash;
}
// virtual call
if (typeof ref.getHashCode === "function") { return ref.getHashCode(); }
// generate and return a new reference id
return (ref["__refID"] = "ref" + __gRefID++);
}
})();
If you came here because you deal with class instances like me you can use static vars/methods to reference instances by a custom unique id:
class Person {
constructor( name ) {
this.name = name;
this.id = Person.ix++;
Person.stack[ this.id ] = this;
}
}
Person.ix = 0;
Person.stack = {};
Person.byId = id => Person.stack[ id ];
let store = {};
store[ new Person( "joe" ).id ] = true;
store[ new Person( "tim" ).id ] = true;
for( let id in store ) {
console.log( Person.byId( id ).name );
}
Here's a variant of Justin Johnson's answer that provides a scalability benefit when you are creating billions of objects for which you want the ID.
Specifically, rather than solely using a 1-up counter (that might overflow the representational limits of Number, and can't be cycled without risking reusing an ID), we register the object and its newly generated ID with a FinalizationRegistry, such that, at some point after the object is garbage collected, the ID is returned to a freelist for reuse by a newly created object (Python's id function can also return the same ID for multiple objects, so long as the existence of the two objects does not overlap in time).
Limitations:
It only works on objects, not JS primitives (this is somewhat reasonable; unlike Python, where everything is an object, JS primitives typically aren't, and the id function logically only works on objects, since primitives need not "exist" in any reasonably identifiable way).
If the code creates (without discarding) billions of objects, asks for their IDs, then releases them all at once and never asks for an ID again, the recovered IDs in the freelist constitute a memory leak of sorts. Hopefully the JS optimizer stores them efficiently, so the cost remains a small fraction of what the objects themselves cost, but it's still a cost. In cases where objects with IDs are regularly created and destroyed, the wasted memory is roughly tied to the maximum number of such ID-ed objects in existence at any given point in time.
If those limitations aren't a problem though, this works fairly well. I modified the testing code a bit to hand control back to the event loop (and hopefully the garbage collector) now and again while creating 10M garbage objects to ID, and on my browser, nearly half the object IDs get reclaimed for reuse; the final loop making five objects and IDing them produces IDs just above 1M, when over 2M objects had IDs generated at some point. In a realistic scenario with meaningful code executing and real async usage I'd expect better results simply because there would be more opportunities for the finalization registry to perform cleanup.
async function sleep(ms) {
await _sleep(ms);
}
function _sleep(ms) {
return new Promise((resolve) => setTimeout(resolve, ms));
}
(function() {
if ( typeof Object.id != "undefined" ) return;
var freelist = []; // Stores previously used IDs for reuse when an object with
// an ID is garbage collected, so creating and dropping billions
// of objects doesn't consume all available IDs
const registry = new FinalizationRegistry((freeid) => {
freelist.push(freeid);
});
var id = 0;
Object.id = function(o) {
if ( typeof o.__uniqueid != "undefined" ) {
return o.__uniqueid;
}
Object.defineProperty(o, "__uniqueid", {
value: freelist.length ? freelist.pop() : ++id,
enumerable: false,
// This could go either way, depending on your
// interpretation of what an "id" is
writable: false
});
registry.register(o, o.__uniqueid); // Sometime after o is collected, its ID
// will be reclaimed for use by a new object
return o.__uniqueid;
};
})();
var obj = { a: 1, b: 1 };
console.log(Object.id(obj));
console.log(Object.id([]));
console.log(Object.id({}));
console.log(Object.id(/./));
var idsum = 0; // So we do something real to prevent optimizing out code
// Make a ton of temporary objects with IDs, handing control back to the event loop
// every once in a while to (hopefully) see some IDs returned to the pool
for (var i = 0; i < 1000000; ++i) {
idsum += Object.id({c: i});
}
sleep(10).then(() => {
console.log(Object.id(function() { console.log("Hey"); }));
for (var i = 1000000; i < 2000000; ++i) {
idsum += Object.id({c: i});
}
console.log(Object.id(function() { console.log("There"); }));
sleep(10).then(() => {
for (var i = 0; i < 5; ++i) {
console.log(Object.id([i]));
}
console.log(idsum);
});
});
for (var k in obj) {
if (obj.hasOwnProperty(k)) {
console.log(k);
}
}
// Logged keys are `a` and `b`