Related
How do I check if an object has a specific property in JavaScript?
Consider:
x = {'key': 1};
if ( x.hasOwnProperty('key') ) {
//Do this
}
Is that the best way to do it?
2022 UPDATE
Object.hasOwn()
Object.hasOwn() is recommended over Object.hasOwnProperty() because it works for objects created using Object.create(null) and with objects that have overridden the inherited hasOwnProperty() method. While it is possible to workaround these problems by calling Object.prototype.hasOwnProperty() on an external object, Object.hasOwn() is more intuitive.
Example
const object1 = {
prop: 'exists'
};
console.log(Object.hasOwn(object1, 'prop'));
// expected output: true
Original answer
I'm really confused by the answers that have been given - most of them are just outright incorrect. Of course you can have object properties that have undefined, null, or false values. So simply reducing the property check to typeof this[property] or, even worse, x.key will give you completely misleading results.
It depends on what you're looking for. If you want to know if an object physically contains a property (and it is not coming from somewhere up on the prototype chain) then object.hasOwnProperty is the way to go. All modern browsers support it. (It was missing in older versions of Safari - 2.0.1 and older - but those versions of the browser are rarely used any more.)
If what you're looking for is if an object has a property on it that is iterable (when you iterate over the properties of the object, it will appear) then doing: prop in object will give you your desired effect.
Since using hasOwnProperty is probably what you want, and considering that you may want a fallback method, I present to you the following solution:
var obj = {
a: undefined,
b: null,
c: false
};
// a, b, c all found
for ( var prop in obj ) {
document.writeln( "Object1: " + prop );
}
function Class(){
this.a = undefined;
this.b = null;
this.c = false;
}
Class.prototype = {
a: undefined,
b: true,
c: true,
d: true,
e: true
};
var obj2 = new Class();
// a, b, c, d, e found
for ( var prop in obj2 ) {
document.writeln( "Object2: " + prop );
}
function hasOwnProperty(obj, prop) {
var proto = obj.__proto__ || obj.constructor.prototype;
return (prop in obj) &&
(!(prop in proto) || proto[prop] !== obj[prop]);
}
if ( Object.prototype.hasOwnProperty ) {
var hasOwnProperty = function(obj, prop) {
return obj.hasOwnProperty(prop);
}
}
// a, b, c found in modern browsers
// b, c found in Safari 2.0.1 and older
for ( var prop in obj2 ) {
if ( hasOwnProperty(obj2, prop) ) {
document.writeln( "Object2 w/ hasOwn: " + prop );
}
}
The above is a working, cross-browser, solution to hasOwnProperty(), with one caveat: It is unable to distinguish between cases where an identical property is on the prototype and on the instance - it just assumes that it's coming from the prototype. You could shift it to be more lenient or strict, based upon your situation, but at the very least this should be more helpful.
With Underscore.js or (even better) Lodash:
_.has(x, 'key');
Which calls Object.prototype.hasOwnProperty, but (a) is shorter to type, and (b) uses "a safe reference to hasOwnProperty" (i.e. it works even if hasOwnProperty is overwritten).
In particular, Lodash defines _.has as:
function has(object, key) {
return object ? hasOwnProperty.call(object, key) : false;
}
// hasOwnProperty = Object.prototype.hasOwnProperty
You can use this (but read the warning below):
var x = {
'key': 1
};
if ('key' in x) {
console.log('has');
}
But be warned: 'constructor' in x will return true even if x is an empty object - same for 'toString' in x, and many others. It's better to use Object.hasOwn(x, 'key').
Note: the following is nowadays largely obsolete thanks to strict mode, and hasOwnProperty. The correct solution is to use strict mode and to check for the presence of a property using obj.hasOwnProperty. This answer predates both these things, at least as widely implemented (yes, it is that old). Take the following as a historical note.
Bear in mind that undefined is (unfortunately) not a reserved word in JavaScript if you’re not using strict mode. Therefore, someone (someone else, obviously) could have the grand idea of redefining it, breaking your code.
A more robust method is therefore the following:
if (typeof(x.attribute) !== 'undefined')
On the flip side, this method is much more verbose and also slower. :-/
A common alternative is to ensure that undefined is actually undefined, e.g. by putting the code into a function which accepts an additional parameter, called undefined, that isn’t passed a value. To ensure that it’s not passed a value, you could just call it yourself immediately, e.g.:
(function (undefined) {
… your code …
if (x.attribute !== undefined)
… mode code …
})();
if (x.key !== undefined)
Armin Ronacher seems to have already beat me to it, but:
Object.prototype.hasOwnProperty = function(property) {
return this[property] !== undefined;
};
x = {'key': 1};
if (x.hasOwnProperty('key')) {
alert('have key!');
}
if (!x.hasOwnProperty('bar')) {
alert('no bar!');
}
A safer, but slower solution, as pointed out by Konrad Rudolph and Armin Ronacher would be:
Object.prototype.hasOwnProperty = function(property) {
return typeof this[property] !== 'undefined';
};
Considering the following object in Javascript
const x = {key: 1};
You can use the in operator to check if the property exists on an object:
console.log("key" in x);
You can also loop through all the properties of the object using a for - in loop, and then check for the specific property:
for (const prop in x) {
if (prop === "key") {
//Do something
}
}
You must consider if this object property is enumerable or not, because non-enumerable properties will not show up in a for-in loop. Also, if the enumerable property is shadowing a non-enumerable property of the prototype, it will not show up in Internet Explorer 8 and earlier.
If you’d like a list of all instance properties, whether enumerable or not, you can use
Object.getOwnPropertyNames(x);
This will return an array of names of all properties that exist on an object.
Reflections provide methods that can be used to interact with Javascript objects. The static Reflect.has() method works like the in operator as a function.
console.log(Reflect.has(x, 'key'));
// expected output: true
console.log(Reflect.has(x, 'key2'));
// expected output: false
console.log(Reflect.has(object1, 'toString'));
// expected output: true
Finally, you can use the typeof operator to directly check the data type of the object property:
if (typeof x.key === "undefined") {
console.log("undefined");
}
If the property does not exist on the object, it will return the string undefined. Else it will return the appropriate property type. However, note that this is not always a valid way of checking if an object has a property or not, because you could have a property that is set to undefined, in which case, using typeof x.key would still return true (even though the key is still in the object).
Similarly, you can check if a property exists by comparing directly to the undefined Javascript property
if (x.key === undefined) {
console.log("undefined");
}
This should work unless key was specifically set to undefined on the x object
Let's cut through some confusion here. First, let's simplify by assuming hasOwnProperty already exists; this is true of the vast majority of current browsers in use.
hasOwnProperty returns true if the attribute name that is passed to it has been added to the object. It is entirely independent of the actual value assigned to it which may be exactly undefined.
Hence:
var o = {}
o.x = undefined
var a = o.hasOwnProperty('x') // a is true
var b = o.x === undefined // b is also true
However:
var o = {}
var a = o.hasOwnProperty('x') // a is now false
var b = o.x === undefined // b is still true
The problem is what happens when an object in the prototype chain has an attribute with the value of undefined? hasOwnProperty will be false for it, and so will !== undefined. Yet, for..in will still list it in the enumeration.
The bottom line is there is no cross-browser way (since Internet Explorer doesn't expose __prototype__) to determine that a specific identifier has not been attached to an object or anything in its prototype chain.
If you are searching for a property, then "no". You want:
if ('prop' in obj) { }
In general, you should not care whether or not the property comes from the prototype or the object.
However, because you used 'key' in your sample code, it looks like you are treating the object as a hash, in which case your answer would make sense. All of the hashes keys would be properties in the object, and you avoid the extra properties contributed by the prototype.
John Resig's answer was very comprehensive, but I thought it wasn't clear. Especially with when to use "'prop' in obj".
For testing simple objects, use:
if (obj[x] !== undefined)
If you don't know what object type it is, use:
if (obj.hasOwnProperty(x))
All other options are slower...
Details
A performance evaluation of 100,000,000 cycles under Node.js to the five options suggested by others here:
function hasKey1(k,o) { return (x in obj); }
function hasKey2(k,o) { return (obj[x]); }
function hasKey3(k,o) { return (obj[x] !== undefined); }
function hasKey4(k,o) { return (typeof(obj[x]) !== 'undefined'); }
function hasKey5(k,o) { return (obj.hasOwnProperty(x)); }
The evaluation tells us that unless we specifically want to check the object's prototype chain as well as the object itself, we should not use the common form:
if (X in Obj)...
It is between 2 to 6 times slower depending on the use case
hasKey1 execution time: 4.51 s
hasKey2 execution time: 0.90 s
hasKey3 execution time: 0.76 s
hasKey4 execution time: 0.93 s
hasKey5 execution time: 2.15 s
Bottom line, if your Obj is not necessarily a simple object and you wish to avoid checking the object's prototype chain and to ensure x is owned by Obj directly, use if (obj.hasOwnProperty(x))....
Otherwise, when using a simple object and not being worried about the object's prototype chain, using if (typeof(obj[x]) !== 'undefined')... is the safest and fastest way.
If you use a simple object as a hash table and never do anything kinky, I would use if (obj[x])... as I find it much more readable.
Yes it is :) I think you can also do Object.prototype.hasOwnProperty.call(x, 'key') which should also work if x has a property called hasOwnProperty :)
But that tests for own properties. If you want to check if it has an property that may also be inhered you can use typeof x.foo != 'undefined'.
if(x.hasOwnProperty("key")){
// …
}
because
if(x.key){
// …
}
fails if x.key is falsy (for example, x.key === "").
You can also use the ES6 Reflect object:
x = {'key': 1};
Reflect.has( x, 'key'); // returns true
Documentation on MDN for Reflect.has can be found here.
The static Reflect.has() method works like the in operator as a function.
Do not do this object.hasOwnProperty(key)). It's really bad because these methods may be shadowed by properties on the object in question - consider { hasOwnProperty: false } - or, the object may be a null object (Object.create(null)).
The best way is to do Object.prototype.hasOwnProperty.call(object, key) or:
const has = Object.prototype.hasOwnProperty; // Cache the lookup once, in module scope.
console.log(has.call(object, key));
/* Or */
import has from 'has'; // https://www.npmjs.com/package/has
console.log(has(object, key));
OK, it looks like I had the right answer unless if you don't want inherited properties:
if (x.hasOwnProperty('key'))
Here are some other options to include inherited properties:
if (x.key) // Quick and dirty, but it does the same thing as below.
if (x.key !== undefined)
Another relatively simple way is using Object.keys. This returns an array which means you get all of the features of an array.
var noInfo = {};
var info = {something: 'data'};
Object.keys(noInfo).length //returns 0 or false
Object.keys(info).length //returns 1 or true
Although we are in a world with great browser support. Because this question is so old I thought I'd add this:
This is safe to use as of JavaScript v1.8.5.
JavaScript is now evolving and growing as it now has good and even efficient ways to check it.
Here are some easy ways to check if object has a particular property:
Using hasOwnProperty()
const hero = {
name: 'Batman'
};
hero.hasOwnProperty('name'); // => true
hero.hasOwnProperty('realName'); // => false
Using keyword/operator in
const hero = {
name: 'Batman'
};
'name' in hero; // => true
'realName' in hero; // => false
Comparing with undefined keyword
const hero = {
name: 'Batman'
};
hero.name; // => 'Batman'
hero.realName; // => undefined
// So consider this
hero.realName == undefined // => true (which means property does not exists in object)
hero.name == undefined // => false (which means that property exists in object)
For more information, check here.
hasOwnProperty "can be used to determine whether an object has the specified property as a direct property of that object; unlike the in operator, this method does not check down the object's prototype chain."
So most probably, for what seems by your question, you don't want to use hasOwnProperty, which determines if the property exists as attached directly to the object itself,.
If you want to determine if the property exists in the prototype chain, you may want to use it like:
if (prop in object) { // Do something }
You can use the following approaches-
var obj = {a:1}
console.log('a' in obj) // 1
console.log(obj.hasOwnProperty('a')) // 2
console.log(Boolean(obj.a)) // 3
The difference between the following approaches are as follows-
In the first and third approach we are not just searching in object but its prototypal chain too. If the object does not have the property, but the property is present in its prototype chain it is going to give true.
var obj = {
a: 2,
__proto__ : {b: 2}
}
console.log('b' in obj)
console.log(Boolean(obj.b))
The second approach will check only for its own properties. Example -
var obj = {
a: 2,
__proto__ : {b: 2}
}
console.log(obj.hasOwnProperty('b'))
The difference between the first and the third is if there is a property which has value undefined the third approach is going to give false while first will give true.
var obj = {
b : undefined
}
console.log(Boolean(obj.b))
console.log('b' in obj);
Given myObject object and “myKey” as key name:
Object.keys(myObject).includes('myKey')
or
myObject.hasOwnProperty('myKey')
or
typeof myObject.myKey !== 'undefined'
The last was widely used, but (as pointed out in other answers and comments) it could also match on keys deriving from Object prototype.
Performance
Today 2020.12.17 I perform tests on MacOs HighSierra 10.13.6 on Chrome v87, Safari v13.1.2 and Firefox v83 for chosen solutions.
Results
I compare only solutions A-F because they give valid result for all cased used in snippet in details section. For all browsers
solution based on in (A) is fast or fastest
solution (E) is fastest for chrome for big objects and fastest for firefox for small arrays if key not exists
solution (F) is fastest (~ >10x than other solutions) for small arrays
solutions (D,E) are quite fast
solution based on losash has (B) is slowest
Details
I perform 4 tests cases:
when object has 10 fields and searched key exists - you can run it HERE
when object has 10 fields and searched key not exists - you can run it HERE
when object has 10000 fields and searched key exists - you can run it HERE
when object has 10000 fields and searched key exists - you can run it HERE
Below snippet presents differences between solutions
A
B
C
D
E
F
G
H
I
J
K
// SO https://stackoverflow.com/q/135448/860099
// src: https://stackoverflow.com/a/14664748/860099
function A(x) {
return 'key' in x
}
// src: https://stackoverflow.com/a/11315692/860099
function B(x) {
return _.has(x, 'key')
}
// src: https://stackoverflow.com/a/40266120/860099
function C(x) {
return Reflect.has( x, 'key')
}
// src: https://stackoverflow.com/q/135448/860099
function D(x) {
return x.hasOwnProperty('key')
}
// src: https://stackoverflow.com/a/11315692/860099
function E(x) {
return Object.prototype.hasOwnProperty.call(x, 'key')
}
// src: https://stackoverflow.com/a/136411/860099
function F(x) {
function hasOwnProperty(obj, prop) {
var proto = obj.__proto__ || obj.constructor.prototype;
return (prop in obj) &&
(!(prop in proto) || proto[prop] !== obj[prop]);
}
return hasOwnProperty(x,'key')
}
// src: https://stackoverflow.com/a/135568/860099
function G(x) {
return typeof(x.key) !== 'undefined'
}
// src: https://stackoverflow.com/a/22740939/860099
function H(x) {
return x.key !== undefined
}
// src: https://stackoverflow.com/a/38332171/860099
function I(x) {
return !!x.key
}
// src: https://stackoverflow.com/a/41184688/860099
function J(x) {
return !!x['key']
}
// src: https://stackoverflow.com/a/54196605/860099
function K(x) {
return Boolean(x.key)
}
// --------------------
// TEST
// --------------------
let x1 = {'key': 1};
let x2 = {'key': "1"};
let x3 = {'key': true};
let x4 = {'key': []};
let x5 = {'key': {}};
let x6 = {'key': ()=>{}};
let x7 = {'key': ''};
let x8 = {'key': 0};
let x9 = {'key': false};
let x10= {'key': undefined};
let x11= {'nokey': 1};
let b= x=> x ? 1:0;
console.log(' 1 2 3 4 5 6 7 8 9 10 11');
[A,B,C,D,E,F,G,H,I,J,K ].map(f=> {
console.log(
`${f.name} ${b(f(x1))} ${b(f(x2))} ${b(f(x3))} ${b(f(x4))} ${b(f(x5))} ${b(f(x6))} ${b(f(x7))} ${b(f(x8))} ${b(f(x9))} ${b(f(x10))} ${b(f(x11))} `
)})
console.log('\nLegend: Columns (cases)');
console.log('1. key = 1 ');
console.log('2. key = "1" ');
console.log('3. key = true ');
console.log('4. key = [] ');
console.log('5. key = {} ');
console.log('6. key = ()=>{} ');
console.log('7. key = "" ');
console.log('8. key = 0 ');
console.log('9. key = false ');
console.log('10. key = undefined ');
console.log('11. no-key ');
<script src="https://cdnjs.cloudflare.com/ajax/libs/lodash.js/4.17.20/lodash.min.js" integrity="sha512-90vH1Z83AJY9DmlWa8WkjkV79yfS2n2Oxhsi2dZbIv0nC4E6m5AbH8Nh156kkM7JePmqD6tcZsfad1ueoaovww==" crossorigin="anonymous"> </script>
This shippet only presents functions used in performance tests - it not perform tests itself!
And here are example results for chrome
Now with ECMAScript22 we can use hasOwn instead of hasOwnProperty (Because this feature has pitfalls )
Object.hasOwn(obj, propKey)
Here is another option for a specific case. :)
If you want to test for a member on an object and want to know if it has been set to something other than:
''
false
null
undefined
0
...
then you can use:
var foo = {};
foo.bar = "Yes, this is a proper value!";
if (!!foo.bar) {
// member is set, do something
}
some easier and short options depending on the specific use case:
to check if the property exists, regardless of value, use the in operator ("a" in b)
to check a property value from a variable, use bracket notation (obj[v])
to check a property value as truthy, use optional
chaining (?.)
to check a property value boolean, use double-not / bang-bang / (!!)
to set a default value for null / undefined check, use nullish coalescing operator (??)
to set a default value for falsey value check, use short-circuit logical OR operator (||)
run the code snippet to see results:
let obj1 = {prop:undefined};
console.log(1,"prop" in obj1);
console.log(1,obj1?.prop);
let obj2 = undefined;
//console.log(2,"prop" in obj2); would throw because obj2 undefined
console.log(2,"prop" in (obj2 ?? {}))
console.log(2,obj2?.prop);
let obj3 = {prop:false};
console.log(3,"prop" in obj3);
console.log(3,!!obj3?.prop);
let obj4 = {prop:null};
let look = "prop"
console.log(4,"prop" in obj4);
console.log(4,obj4?.[look]);
let obj5 = {prop:true};
console.log(5,"prop" in obj5);
console.log(5,obj5?.prop === true);
let obj6 = {otherProp:true};
look = "otherProp"
console.log(6,"prop" in obj6);
console.log(6,obj6.look); //should have used bracket notation
let obj7 = {prop:""};
console.log(7,"prop" in obj7);
console.log(7,obj7?.prop || "empty");
I see very few instances where hasOwn is used properly, especially given its inheritance issues
There is a method, "hasOwnProperty", that exists on an object, but it's not recommended to call this method directly, because it might be sometimes that the object is null or some property exist on the object like: { hasOwnProperty: false }
So a better way would be:
// Good
var obj = {"bar": "here bar desc"}
console.log(Object.prototype.hasOwnProperty.call(obj, "bar"));
// Best
const has = Object.prototype.hasOwnProperty; // Cache the lookup once, in module scope.
console.log(has.call(obj, "bar"));
An ECMAScript 6 solution with reflection. Create a wrapper like:
/**
Gets an argument from array or object.
The possible outcome:
- If the key exists the value is returned.
- If no key exists the default value is returned.
- If no default value is specified an empty string is returned.
#param obj The object or array to be searched.
#param key The name of the property or key.
#param defVal Optional default version of the command-line parameter [default ""]
#return The default value in case of an error else the found parameter.
*/
function getSafeReflectArg( obj, key, defVal) {
"use strict";
var retVal = (typeof defVal === 'undefined' ? "" : defVal);
if ( Reflect.has( obj, key) ) {
return Reflect.get( obj, key);
}
return retVal;
} // getSafeReflectArg
Showing how to use this answer
const object= {key1: 'data', key2: 'data2'};
Object.keys(object).includes('key1') //returns true
We can use indexOf as well, I prefer includes
You need to use the method object.hasOwnProperty(property). It returns true if the object has the property and false if the object doesn't.
The hasOwnProperty() method returns a boolean indicating whether the object has the specified property as its own property (as opposed to inheriting it).
const object1 = {};
object1.property1 = 42;
console.log(object1.hasOwnProperty('property1'));
// expected output: true
console.log(object1.hasOwnProperty('toString'));
// expected output: false
console.log(object1.hasOwnProperty('hasOwnProperty'));
// expected output: false
Know more
Don't over-complicate things when you can do:
var isProperty = (objectname.keyname || "") ? true : false;
It Is simple and clear for most cases...
A Better approach for iterating on object's own properties:
If you want to iterate on object's properties without using hasOwnProperty() check,
use for(let key of Object.keys(stud)){} method:
for(let key of Object.keys(stud)){
console.log(key); // will only log object's Own properties
}
full Example and comparison with for-in with hasOwnProperty()
function Student() {
this.name = "nitin";
}
Student.prototype = {
grade: 'A'
}
let stud = new Student();
// for-in approach
for(let key in stud){
if(stud.hasOwnProperty(key)){
console.log(key); // only outputs "name"
}
}
//Object.keys() approach
for(let key of Object.keys(stud)){
console.log(key);
}
How do I check if a particular key exists in a JavaScript object or array?
If a key doesn't exist, and I try to access it, will it return false? Or throw an error?
Checking for undefined-ness is not an accurate way of testing whether a key exists. What if the key exists but the value is actually undefined?
var obj = { key: undefined };
console.log(obj["key"] !== undefined); // false, but the key exists!
You should instead use the in operator:
var obj = { key: undefined };
console.log("key" in obj); // true, regardless of the actual value
If you want to check if a key doesn't exist, remember to use parenthesis:
var obj = { not_key: undefined };
console.log(!("key" in obj)); // true if "key" doesn't exist in object
console.log(!"key" in obj); // Do not do this! It is equivalent to "false in obj"
Or, if you want to particularly test for properties of the object instance (and not inherited properties), use hasOwnProperty:
var obj = { key: undefined };
console.log(obj.hasOwnProperty("key")); // true
For performance comparison between the methods that are in, hasOwnProperty and key is undefined, see this benchmark:
Quick Answer
How do I check if a particular key exists in a JavaScript object or array?
If a key doesn't exist and I try to access it, will it return false? Or throw an error?
Accessing directly a missing property using (associative) array style or object style will return an undefined constant.
The slow and reliable in operator and hasOwnProperty method
As people have already mentioned here, you could have an object with a property associated with an "undefined" constant.
var bizzareObj = {valid_key: undefined};
In that case, you will have to use hasOwnProperty or in operator to know if the key is really there. But, but at what price?
so, I tell you...
in operator and hasOwnProperty are "methods" that use the Property Descriptor mechanism in Javascript (similar to Java reflection in the Java language).
http://www.ecma-international.org/ecma-262/5.1/#sec-8.10
The Property Descriptor type is used to explain the manipulation and reification of named property attributes. Values of the Property Descriptor type are records composed of named fields where each field’s name is an attribute name and its value is a corresponding attribute value as specified in 8.6.1. In addition, any field may be present or absent.
On the other hand, calling an object method or key will use Javascript [[Get]] mechanism. That is a far way faster!
Benchmark
https://jsben.ch/HaHQt
.
Using in operator
var result = "Impression" in array;
The result was
12,931,832 ±0.21% ops/sec 92% slower
Using hasOwnProperty
var result = array.hasOwnProperty("Impression")
The result was
16,021,758 ±0.45% ops/sec 91% slower
Accessing elements directly (brackets style)
var result = array["Impression"] === undefined
The result was
168,270,439 ±0.13 ops/sec 0.02% slower
Accessing elements directly (object style)
var result = array.Impression === undefined;
The result was
168,303,172 ±0.20% fastest
EDIT: What is the reason to assign to a property the undefined value?
That question puzzles me. In Javascript, there are at least two references for absent objects to avoid problems like this: null and undefined.
null is the primitive value that represents the intentional absence of any object value, or in short terms, the confirmed lack of value. On the other hand, undefined is an unknown value (not defined). If there is a property that will be used later with a proper value consider use null reference instead of undefined because in the initial moment the property is confirmed to lack value.
Compare:
var a = {1: null};
console.log(a[1] === undefined); // output: false. I know the value at position 1 of a[] is absent and this was by design, i.e.: the value is defined.
console.log(a[0] === undefined); // output: true. I cannot say anything about a[0] value. In this case, the key 0 was not in a[].
Advice
Avoid objects with undefined values. Check directly whenever possible and use null to initialize property values. Otherwise, use the slow in operator or hasOwnProperty() method.
EDIT: 12/04/2018 - NOT RELEVANT ANYMORE
As people have commented, modern versions of the Javascript engines (with firefox exception) have changed the approach for access properties. The current implementation is slower than the previous one for this particular case but the difference between access key and object is neglectable.
It will return undefined.
var aa = {hello: "world"};
alert( aa["hello"] ); // popup box with "world"
alert( aa["goodbye"] ); // popup box with "undefined"
undefined is a special constant value. So you can say, e.g.
// note the three equal signs so that null won't be equal to undefined
if( aa["goodbye"] === undefined ) {
// do something
}
This is probably the best way to check for missing keys. However, as is pointed out in a comment below, it's theoretically possible that you'd want to have the actual value be undefined. I've never needed to do this and can't think of a reason offhand why I'd ever want to, but just for the sake of completeness, you can use the in operator
// this works even if you have {"goodbye": undefined}
if( "goodbye" in aa ) {
// do something
}
"key" in obj
Is likely testing only object attribute values that are very different from array keys
Checking for properties of the object including inherited properties
Could be determined using the in operator which returns true if the specified property is in the specified object or its prototype chain, false otherwise
const person = { name: 'dan' };
console.log('name' in person); // true
console.log('age' in person); // false
Checking for properties of the object instance (not including inherited properties)
*2021 - Using the new method ***Object.hasOwn() as a replacement for Object.hasOwnProperty()
Object.hasOwn() is intended as a replacement for Object.hasOwnProperty() and is a new method available to use (yet still not fully supported by all browsers like safari yet but soon will be)
Object.hasOwn() is a static method which returns true if the specified object has the specified property as its own property. If the property is inherited, or does not exist, the method returns false.
const person = { name: 'dan' };
console.log(Object.hasOwn(person, 'name'));// true
console.log(Object.hasOwn(person, 'age'));// false
const person2 = Object.create({gender: 'male'});
console.log(Object.hasOwn(person2, 'gender'));// false
What is the motivation to use it over Object.prototype.hasOwnProperty? - It is recommended to this method use over the Object.hasOwnProperty() because it also works for objects created by using Object.create(null) and for objects that have overridden the inherited hasOwnProperty() method. Although it's possible to solve these kind of problems by calling Object.prototype.hasOwnProperty() on an external object, Object.hasOwn() overcome these problems, hence is preferred (see examples below)
let person = {
hasOwnProperty: function() {
return false;
},
age: 35
};
if (Object.hasOwn(person, 'age')) {
console.log(person.age); // true - the remplementation of hasOwnProperty() did not affect the Object
}
let person = Object.create(null);
person.age = 35;
if (Object.hasOwn(person, 'age')) {
console.log(person.age); // true - works regardless of how the object was created
}
More about Object.hasOwn can be found here : https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Object/hasOwn
Browser compatibility for Object.hasOwn - https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Object/hasOwn#browser_compatibility
The accepted answer refers to Object. Beware using the in operator on Array to find data instead of keys:
("true" in ["true", "false"])
// -> false (Because the keys of the above Array are actually 0 and 1)
To test existing elements in an Array: Best way to find if an item is in a JavaScript array?
Three ways to check if a property is present in a javascript object:
!!obj.theProperty
Will convert value to bool. returns true for all but the false value
'theProperty' in obj
Will return true if the property exists, no matter its value (even empty)
obj.hasOwnProperty('theProperty')
Does not check the prototype chain. (since all objects have the toString method, 1 and 2 will return true on it, while 3 can return false on it.)
Reference:
http://book.mixu.net/node/ch5.html
If you are using underscore.js library then object/array operations become simple.
In your case _.has method can be used. Example:
yourArray = {age: "10"}
_.has(yourArray, "age")
returns true
But,
_.has(yourArray, "invalidKey")
returns false
Answer:
if ("key" in myObj)
{
console.log("key exists!");
}
else
{
console.log("key doesn't exist!");
}
Explanation:
The in operator will check if the key exists in the object. If you checked if the value was undefined: if (myObj["key"] === 'undefined'), you could run into problems because a key could possibly exist in your object with the undefined value.
For that reason, it is much better practice to first use the in operator and then compare the value that is inside the key once you already know it exists.
Here's a helper function I find quite useful
This keyExists(key, search) can be used to easily lookup a key within objects or arrays!
Just pass it the key you want to find, and search obj (the object or array) you want to find it in.
function keyExists(key, search) {
if (!search || (search.constructor !== Array && search.constructor !== Object)) {
return false;
}
for (var i = 0; i < search.length; i++) {
if (search[i] === key) {
return true;
}
}
return key in search;
}
// How to use it:
// Searching for keys in Arrays
console.log(keyExists('apple', ['apple', 'banana', 'orange'])); // true
console.log(keyExists('fruit', ['apple', 'banana', 'orange'])); // false
// Searching for keys in Objects
console.log(keyExists('age', {'name': 'Bill', 'age': 29 })); // true
console.log(keyExists('title', {'name': 'Jason', 'age': 29 })); // false
It's been pretty reliable and works well cross-browser.
vanila js
yourObjName.hasOwnProperty(key) : true ? false;
If you want to check if the object has at least one property in es2015
Object.keys(yourObjName).length : true ? false
ES6 solution
using Array#some and Object.keys. It will return true if given key exists in the object or false if it doesn't.
var obj = {foo: 'one', bar: 'two'};
function isKeyInObject(obj, key) {
var res = Object.keys(obj).some(v => v == key);
console.log(res);
}
isKeyInObject(obj, 'foo');
isKeyInObject(obj, 'something');
One-line example.
console.log(Object.keys({foo: 'one', bar: 'two'}).some(v => v == 'foo'));
Optional chaining operator:
const invoice = {customer: {address: {city: "foo"}}}
console.log( invoice?.customer?.address?.city )
console.log( invoice?.customer?.address?.street )
console.log( invoice?.xyz?.address?.city )
See supported browsers list
For those which have lodash included in their project:There is a lodash _.get method which tries to get "deep" keys:
Gets the value at path of object. If the resolved value is undefined,
the defaultValue is returned in its place.
var object = { 'a': [{ 'b': { 'c': 3 } }] };
console.log(
_.get(object, 'a[0].b.c'), // => 3
_.get(object, ['a', '0', 'b', 'c']), // => 3
_.get(object, 'a.b.c'), // => undefined
_.get(object, 'a.b.c', 'default') // => 'default'
)
<script src="https://cdnjs.cloudflare.com/ajax/libs/lodash.js/4.17.4/lodash.min.js"></script>
This will effectively check if that key, however deep, is defined and will not throw an error which might harm the flow of your program if that key is not defined.
To find if a key exists in an object, use
Object.keys(obj).includes(key)
The ES7 includes method checks if an Array includes an item or not, & is a simpler alternative to indexOf.
The easiest way to check is
"key" in object
for example:
var obj = {
a: 1,
b: 2,
}
"a" in obj // true
"c" in obj // false
Return value as true implies that key exists in the object.
Optional Chaining (?.) operator can also be used for this
Source: MDN/Operators/Optional_chaining
const adventurer = {
name: 'Alice',
cat: {
name: 'Dinah'
}
}
console.log(adventurer.dog?.name) // undefined
console.log(adventurer.cat?.name) // Dinah
An alternate approach using "Reflect"
As per MDN
Reflect is a built-in object that provides methods for interceptable
JavaScript operations.
The static Reflect.has() method works like the in operator as a
function.
var obj = {
a: undefined,
b: 1,
c: "hello world"
}
console.log(Reflect.has(obj, 'a'))
console.log(Reflect.has(obj, 'b'))
console.log(Reflect.has(obj, 'c'))
console.log(Reflect.has(obj, 'd'))
Should I use it ?
It depends.
Reflect.has() is slower than the other methods mentioned on the accepted answer (as per my benchmark test). But, if you are using it only a few times in your code, I don't see much issues with this approach.
We can use - hasOwnProperty.call(obj, key);
The underscore.js way -
if(_.has(this.options, 'login')){
//key 'login' exists in this.options
}
_.has = function(obj, key) {
return hasOwnProperty.call(obj, key);
};
If you want to check for any key at any depth on an object and account for falsey values consider this line for a utility function:
var keyExistsOn = (o, k) => k.split(".").reduce((a, c) => a.hasOwnProperty(c) ? a[c] || 1 : false, Object.assign({}, o)) === false ? false : true;
Results
var obj = {
test: "",
locals: {
test: "",
test2: false,
test3: NaN,
test4: 0,
test5: undefined,
auth: {
user: "hw"
}
}
}
keyExistsOn(obj, "")
> false
keyExistsOn(obj, "locals.test")
> true
keyExistsOn(obj, "locals.test2")
> true
keyExistsOn(obj, "locals.test3")
> true
keyExistsOn(obj, "locals.test4")
> true
keyExistsOn(obj, "locals.test5")
> true
keyExistsOn(obj, "sdsdf")
false
keyExistsOn(obj, "sdsdf.rtsd")
false
keyExistsOn(obj, "sdsdf.234d")
false
keyExistsOn(obj, "2134.sdsdf.234d")
false
keyExistsOn(obj, "locals")
true
keyExistsOn(obj, "locals.")
false
keyExistsOn(obj, "locals.auth")
true
keyExistsOn(obj, "locals.autht")
false
keyExistsOn(obj, "locals.auth.")
false
keyExistsOn(obj, "locals.auth.user")
true
keyExistsOn(obj, "locals.auth.userr")
false
keyExistsOn(obj, "locals.auth.user.")
false
keyExistsOn(obj, "locals.auth.user")
true
Also see this NPM package: https://www.npmjs.com/package/has-deep-value
While this doesn't necessarily check if a key exists, it does check for the truthiness of a value. Which undefined and null fall under.
Boolean(obj.foo)
This solution works best for me because I use typescript, and using strings like so 'foo' in obj or obj.hasOwnProperty('foo')
to check whether a key exists or not does not provide me with intellisense.
const object1 = {
a: 'something',
b: 'something',
c: 'something'
};
const key = 's';
// Object.keys(object1) will return array of the object keys ['a', 'b', 'c']
Object.keys(object1).indexOf(key) === -1 ? 'the key is not there' : 'yep the key is exist';
In 'array' world we can look on indexes as some kind of keys. What is surprising the in operator (which is good choice for object) also works with arrays. The returned value for non-existed key is undefined
let arr = ["a","b","c"]; // we have indexes: 0,1,2
delete arr[1]; // set 'empty' at index 1
arr.pop(); // remove last item
console.log(0 in arr, arr[0]);
console.log(1 in arr, arr[1]);
console.log(2 in arr, arr[2]);
Worth noting that since the introduction of ES11 you can use the nullish coalescing operator, which simplifies things a lot:
const obj = {foo: 'one', bar: 'two'};
const result = obj.foo ?? "Not found";
The code above will return "Not found" for any "falsy" values in foo. Otherwise it will return obj.foo.
See Combining with the nullish coalescing operator
JS Double Exclamation !! sign may help in this case.
const cars = {
petrol:{
price: 5000
},
gas:{
price:8000
}
}
Suppose we have the object above and If you try to log car with petrol price.
=> console.log(cars.petrol.price);
=> 5000
You'll definitely get 5000 out of it. But what if you try to get an
electric car which does not exist then you'll get undefine
=> console.log(cars.electric);
=> undefine
But using !! which is its short way to cast a variable to be a
Boolean (true or false) value.
=> console.log(!!cars.electric);
=> false
In my case, I wanted to check an NLP metadata returned by LUIS which is an object. I wanted to check if a key which is a string "FinancialRiskIntent" exists as a key inside that metadata object.
I tried to target the nested object I needed to check -> data.meta.prediction.intents (for my own purposes only, yours could be any object)
I used below code to check if the key exists:
const hasKey = 'FinancialRiskIntent' in data.meta.prediction.intents;
if(hasKey) {
console.log('The key exists.');
}
else {
console.log('The key does not exist.');
}
This is checking for a specific key which I was initially looking for.
Hope this bit helps someone.
yourArray.indexOf(yourArrayKeyName) > -1
fruit = ['apple', 'grapes', 'banana']
fruit.indexOf('apple') > -1
true
fruit = ['apple', 'grapes', 'banana']
fruit.indexOf('apple1') > -1
false
for strict object keys checking:
const object1 = {};
object1.stackoverflow = 51;
console.log(object1.hasOwnProperty('stackoverflow'));
output: true
These example can demonstrate the differences between defferent ways. Hope it will help you to pick the right one for your needs:
// Lets create object `a` using create function `A`
function A(){};
A.prototype.onProtDef=2;
A.prototype.onProtUndef=undefined;
var a=new A();
a.ownProp = 3;
a.ownPropUndef = undefined;
// Let's try different methods:
a.onProtDef; // 2
a.onProtUndef; // undefined
a.ownProp; // 3
a.ownPropUndef; // undefined
a.whatEver; // undefined
a.valueOf; // ƒ valueOf() { [native code] }
a.hasOwnProperty('onProtDef'); // false
a.hasOwnProperty('onProtUndef'); // false
a.hasOwnProperty('ownProp'); // true
a.hasOwnProperty('ownPropUndef'); // true
a.hasOwnProperty('whatEver'); // false
a.hasOwnProperty('valueOf'); // false
'onProtDef' in a; // true
'onProtUndef' in a; // true
'ownProp' in a; // true
'ownPropUndef' in a; // true
'whatEver' in a; // false
'valueOf' in a; // true (on the prototype chain - Object.valueOf)
Object.keys(a); // ["ownProp", "ownPropUndef"]
const rawObject = {};
rawObject.propertyKey = 'somethingValue';
console.log(rawObject.hasOwnProperty('somethingValue'));
// expected output: true
checking particular key present in given object, hasOwnProperty will works here.
If you have ESLint configured in your project follows ESLint rule no-prototype-builtins. The reason why has been described in the following link:
// bad
console.log(object.hasOwnProperty(key));
// good
console.log(Object.prototype.hasOwnProperty.call(object, key));
// best
const has = Object.prototype.hasOwnProperty; // cache the lookup once, in module scope.
console.log(has.call(object, key));
/* or */
import has from 'has'; // https://www.npmjs.com/package/has
console.log(has(object, key));
New awesome solution with JavaScript Destructuring:
let obj = {
"key1": "value1",
"key2": "value2",
"key3": "value3",
};
let {key1, key2, key3, key4} = obj;
// key1 = "value1"
// key2 = "value2"
// key3 = "value3"
// key4 = undefined
// Can easily use `if` here on key4
if(!key4) { console.log("key not present"); } // Key not present
Do check other use of JavaScript Destructuring
I'm currently having a problem with a deep search in a json object and even though i thought this issue must have been covered alot, I wasn't able to find anything that was really helpful so far (and I actually found alot, also this thread. Maybe I've been looking at code for too long today but it didn't really help me)
Basically what i want is pretty simple. I have a JSON-Object thats pretty deep filled with objects. All i want is a function that returns an array with all objects that contain a given Key-Value-Pair. I made this function to return the first found object which works just fine
deepSearch: function(Obj, Key, Value){
var returned = [];
var result = false;
var searchObj = function(_Obj, _Key, _Value){
if(_Obj[_Key]===_Value){
return _Obj;
} else {
return false;
}
}
result = searchObj(Obj, Key, Value);
$.each(Obj, function(key, value){
if(typeof(Obj[key]) === 'object' && Obj[key]!== null && !result)
result = customGeneralFunctions.objects.deepSearch(Obj[key], Key, Value);
if(result) return result;
});
return result;
}
Now I want to change it to return an array contianing all Objects with that pair. I've been trying for a while now and I think it wouldnt be a change too hard but I just can't wrap my head around it. Maybesomeone has an idea that helps me. Thanks in advance and
Greetings Chris
A safe deep object search?
Can't let this pass 3 answers with examples, all flawed. And all illustrate some classic Javascript coding got-ya's
null is an Object
UPDATE an answer has been changed.
As the code is no longer visible I will just leave the warning when iterating an object's properties and you use typeof to check if you have an object be careful to check for null as it is also of type "object"
getObject returns to early and fails to find additional objects nested inside objects that meet the condition. Though easily fixed by removing the return it will still throw a TypeError: Cannot read property 'find' of null if the object being searched contains an array with null in it.
for in the indiscriminate iterator
UPDATE an answer has been removed.
I have added the removed code as an example in the snippet below function deepSearch is fatally flawed and will more likely throw a RangeError: Maximum call stack size exceeded error then find the object you are looking for. eg deepSearch({ a:"a"},"id",3);. When using for in you should type check as it will iterate a string as well as an object's properties.
function deepSearch(object, key, value) {
var filtered = [];
for (var p in object)
if (p === key && object[p] === value) filtered.push(object);
else if (object[p]) filtered = filtered.concat(deepSearch(object[p], key, value));
return filtered;
}
Dont trust the callback.
Alex K search passed most tests (within reasonable scope of the question) but only if the code in the form of the comment // tip: here is a good idea to check for hasOwnProperty would have been included.
But that said the function has a flaw (and inefficiency) as it will call predicate on all properties of an object, and I can think of plenty of scenarios in which the function can return many references to the same object eg the reciprocal search for objects with property key NOT with value predicate = (key,val)=>{return key === "id" && val !== 3}.
The search should only add one entry per object thus we should test the object not the properties. We can never trust the callback to do what we expect.
And as it is the accepted answer I should point out that Array.concat should really not be used as it is in this situation. Using closure is much more efficient and allows you to not have to pass the current state to each recursion.
Circular reference.
The flaw to floor them all.
I am not to sure if it is relevant as the question does state that the data is from the form JSON and hence would be free of any circular reference (JSON can not reference).
But I will address the problem and several solutions.
A circular reference is simply an object referencing itself. For example.
var me = {};
me.me = me;
That will crash all the other answers if passed as an argument. Circular references are very common.
Some solutions.
First solution is to only accept data in the form of a JSON string and equally return the data as a JSON string (so balance is maintained and the universe does not explode). Thus eliminating any chance of a circular reference.
Track recursion depth and set a limit. Though this will stop a callstack overflow
it will not prevent the result being flawed as a shallow circular reference can create duplicate object references.
The quick down and dirty solution is a simple try catch around a JSON.stringify and throw TypeError("Object can not be searched"); for those on that side of the data bus..
The best solution is to decycle the object. Which in this case is very amenable to the actual algorithm we are using. For each unique object that is encountered we place it in an array. If we encounter an object that is in that array we ignore it and move on.
A possible solution.
Thus the general purpose solution, that is safe (I hope) and flexible. Though it is written for ES6 so legacy support will have to be provided in the form of babel or the like. Though it does come with a BUT!
// Log function
function log(data){console.log(data)}
// The test data
var a = {
a : "a",
one : {
two : {
find : "me",
data : "and my data in one.two"
},
twoA : {
four : 4,
find : "me",
data : "and my data in one.twoA"
}
},
two : {
one : {
one : 1,
find : "not me",
},
two : {
one : 1,
two : 1,
find : "me",
data : "and my data in two.two"
},
},
anArray : [
null,0,undefined,/./,new Date(),function(){return hi},
{
item : "one",
find : "Not me",
},{
item : "two",
find : "Not me",
extra : {
find : "me",
data : "I am a property of anArray item 1",
more : {
find : "me",
data : "hiding inside me"
},
}
},{
item : "three",
find : "me",
data : "and I am in an array"
},{
item : "four",
find : "me",
data : "and I am in an array"
},
],
three : {
one : {
one : 1,
},
two : {
one : 1,
two : 1,
},
three : {
one : 1,
two : {
one : {
find : "me",
data : "and my data in three.three.two.one"
}
}
}
},
}
// Add cyclic referance
a.extra = {
find : "me",
data : "I am cyclic in nature.",
}
a.extra.cycle = a.extra;
a.extraOne = {
test : [a],
self : a,
findme : a.extra,
};
if(! Object.allWith){
/* Non writeable enumerable configurable property of Object.prototype
as a function in the form
Object.allWith(predicate)
Arguments
predicate Function used to test the child property takes the argument
obj the current object to test
and will return true if the condition is meet
Return
An array of all objects that satisfy the predicate
Example
var test = {a : { key : 10, data: 100}, b : { key : 11, data: 100} };
var res = test.allWith((obj)=>obj.key === 10);
// res contains test.a
*/
Object.defineProperty(Object.prototype, 'allWith', {
writable : false,
enumerable : false,
configurable : false,
value : function (predicate) {
var uObjects = [];
var objects = [];
if (typeof predicate !== "function") {throw new TypeError("predicate is not a function")}
(function find (obj) {
var key;
if (predicate(obj) === true) {objects.push(obj)}
for (key of Object.keys(obj)) {
let o = obj[key];
if (o && typeof o === "object") {
if (! uObjects.find(obj => obj === o)) {
uObjects.push(o);
find(o);
}
}
}
} (this));
return objects;
}
});
}else{
console.warn("Warn!! Object.allWith already defined.");
}
var res = a.allWith(obj => obj.find === "me");
res.forEach((a,i)=>(log("Item : " + i + " ------------"),log(a)))
Why are you searching through unknown data structures?
It works for all the test cases I could come up with, but that is not at all the definitive test. I added it to the Object.prototype because you should not do that!!! nor use such a function or derivative thereof.
This is the first time I have written such a function, and the reason is that I have never had to write something like that before, I know what the data looks like and I dont have to create dangerous recursive iterators to find what is needed.. If you are writing code and you are not sure of the data you are using there is something wrong in the design of the whole project.
Hopefully this will help you to solve your task.
Lets use recursion to search deep into object.
Also lets make it more generic.
// search function takes object as a first param and
// a predicate Function as second predicate(key, value) => boolean
function search(obj, predicate) {
let result = [];
for(let p in obj) { // iterate on every property
// tip: here is a good idea to check for hasOwnProperty
if (typeof(obj[p]) == 'object') { // if its object - lets search inside it
result = result.concat(search(obj[p], predicate));
} else if (predicate(p, obj[p]))
result.push(
obj
); // check condition
}
return result;
}
Lets test it!
var obj = {
id: 1,
title: 'hello world',
child: {
id: 2,
title: 'foobar',
child: {
id: 3,
title: 'i should be in results array '
}
},
anotherInnerObj: {
id: 3,
title: 'i should be in results array too!'
}
};
var result = search(obj, function(key, value) { // im looking for this key value pair
return key === 'id' && value === 3;
});
Output:
result.forEach(r => console.log(r))
// Object {id: 3, title: "i should be in results array "}
// Object {id: 3, title: "i should be in results array too!"}
You've created a returned array. First, push the result of searchObj() into it. Then in your loop, if you get a result, concat() it to returned. Finally, return returned at the end of the function. That should do it...
You could use a simplified version and
check if object not truthy or object is not an object, then return
check if given key and value match, then add the actual object to the result set,
get the keys and iterate over the properties and call the function again.
At last, the array with the collected objects is returned.
function getObjects(object, key, value) {
function iter(o) {
if (!o || typeof o !== 'object') {
return;
}
if (o[key] === value){
result.push(o);
}
Object.keys(o).forEach(function (k) {
iter(o[k]);
});
}
var result = [];
iter(object);
return result;
}
var object = { id: 1, title: 'hello world', child: { id: null, title: 'foobar', child: { id: null, title: 'i should be in results array ' } }, foo: { id: null, title: 'i should be in results array too!' }, deep: [{ id: null, value: 'yo' }, { id: null, value: 'yo2' }] };
console.log(getObjects(object, 'id', null));
.as-console-wrapper { max-height: 100% !important; top: 0; }
I'm trying to figure out the best way to interate through a javascript object to see if one of the keys is set to a certain value. I understand I can do a foreach loop but I feel like there is an easier way.
var myObject = {
a: false,
b: false,
c: false,
x: false
}
Id like a quick way to return a true if at least one of those values is set to true, and false if all are false.
You have to iterate, but you can do something like this
var hasTrue = Object.keys(myObject).some(function(key) {
return myObject[key];
});
this uses Array.some and stops as soon as a true value is encountered.
FIDDLE
To return the key that has yourValue as its value, just do:
var yourValue = true;
var key = Object.keys(myObject).filter(function (i) {
return myObject[i] === yourValue;
})[0];
It will return undefined if no key found.
If you dont need the key and you only need to know if the value is in your object, you can just use the some method:
var hasValue = Object.keys(myObject).some(function (i) {
return myObject[i] === yourValue;
});
var any_true = false;
JSON.stringify(myObject, function(key, value) {
if (value === true) any_true = true;
});
This uses the callback feature of JSON.stringify. It has the advantage that it finds any true value, even in nested objects.
Is there a way to filter out everything inside of a for...in loop to only get the objects?
I'm writing a function to loop through nested objects to find certain pieces of data and then save it to localStorage.
Example:
var equipped = {
data: [the rest of the properties of equipped go here],
tool: {
data: [the rest of the properties of tool go here],
axe: {
data: [the rest of the properties of axe go here],
iron: {...},
steel: {...}
}
}
}
The tool/axe/metal properties are all generated dynamically and is different each time. Inside the metal properties is the data I'm trying to save. I would normally just loop through the array if I was trying to access the data (Using knockoutjs for binding, it's much easier to just foreach the data array), but I'm using the variable from a for...in loop to build the rest of the tree in my localStorage object before stringifying it.
How I'm reading the object:
for (var type in equipped) {
if (check goes here) {
savedValue.equipped[type] = {};
for (var category in equipped[type]) {
etc etc...
}
}
}
I understand that everything is an object type so I can't just do an instanceof or typeof on a defined object to filter them out. Is there another easy way to do it inside of an if statement or do I have to make each step of the tree from a constructor so I can instanceof RealObject?
Either of these should do well:
function isObject(val) {
if (val === null) { return false;}
return (typeof val === 'object');
}
or
function isObject(obj) {
return obj === Object(obj);
}
or
// this only works with object literals
function isObject(val) {
return (!!val) && (val.constructor === Object);
};
this last one, gives me the following:
console.log(isObject()); // false
console.log(isObject([])); // false
console.log(isObject(new Date)); // false
console.log(isObject({})); // true
console.log(isObject(null)); // false
console.log(isObject(true)); // false
console.log(isObject(1)); // false
console.log(isObject('someValueString')); // false
so, something like:
for (var type in equipped) {
if (isObject(type)) {
savedValue.equipped[type] = {};
for (var category in equipped[type]) {
etc etc...
}
}
}
Note: You can also try the following, but I have not used it. So you'd have to go thru your use cases.
Object.getPrototypeOf
Here is the code to check whether the variable is object or not:
function isJsonObject( obj ) {
// Must be an Object.
// Because of IE, we also have to check the presence of the constructor property.
// Make sure that DOM nodes and window objects don't pass through, as well
if ( !obj || obj.toString() !== "[object Object]" || obj.nodeType || obj.setInterval ) {
return false;
}
// Not own constructor property must be Object
if ( obj.constructor
&& !obj.hasOwnProperty("constructor")
&& !obj.constructor.prototype.hasOwnProperty("isPrototypeOf")) {
return false;
}
// Own properties are enumerated firstly, so to speed up,
// if last one is own, then all properties are own.
var key;
for ( key in obj ) {}
return key === undefined || obj.hasOwnProperty( key );
}
There's an old hack for type detection I've used previously.
var classChecker = {}.toString;
classChecker.call({});
classChecker.call(function() {});
classChecker.call([]);
// etc...
// More immediately relevant use:
var savedValue = {
equipped: {}
};
var objectString = classChecker.call({});
for (var type in equipped) {
if (classChecker.call(equipped[type]) === objectString) {
savedValue.equipped[type] = {};
for (var category in equipped[type]) {
// ...
}
}
}
console.log(savedValue);
See http://plnkr.co/edit/nKLQsOdcurrpUCg7cOoJ?p=preview for a working sample. (open your console to view output)