I want to know what the difference is between null
and undefined
in JavaScript.
30 Answers
In JavaScript, undefined
means a variable has been declared but has not yet been assigned a value, such as:
var testVar;
alert(testVar); //shows undefined
alert(typeof testVar); //shows undefined
null
is an assignment value. It can be assigned to a variable as a representation of no value:
var testVar = null;
alert(testVar); //shows null
alert(typeof testVar); //shows object
From the preceding examples, it is clear that undefined
and null
are two distinct types: undefined
is a type itself (undefined) while null
is an object.
null === undefined // false
null == undefined // true
null === null // true
and
null = 'value' // ReferenceError
undefined = 'value' // 'value'
I picked this from here
The undefined value is a primitive value used when a variable has not been assigned a value.
The null value is a primitive value that represents the null, empty, or non-existent reference.
When you declare a variable through var and do not give it a value, it will have the value undefined. By itself, if you try to WScript.Echo() or alert() this value, you won't see anything. However, if you append a blank string to it then suddenly it'll appear:
var s;
WScript.Echo(s);
WScript.Echo("" + s);
You can declare a variable, set it to null, and the behavior is identical except that you'll see "null" printed out versus "undefined". This is a small difference indeed.
You can even compare a variable that is undefined to null or vice versa, and the condition will be true:
undefined == null
null == undefined
They are, however, considered to be two different types. While undefined is a type all to itself, null is considered to be a special object value. You can see this by using typeof() which returns a string representing the general type of a variable:
var a;
WScript.Echo(typeof(a));
var b = null;
WScript.Echo(typeof(b));
Running the above script will result in the following output:
undefined
object
Regardless of their being different types, they will still act the same if you try to access a member of either one, e.g. that is to say they will throw an exception. With WSH you will see the dreaded "'varname' is null or not an object" and that's if you're lucky (but that's a topic for another article).
You can explicitely set a variable to be undefined, but I highly advise against it. I recommend only setting variables to null and leave undefined the value for things you forgot to set. At the same time, I really encourage you to always set every variable. JavaScript has a scope chain different than that of C-style languages, easily confusing even veteran programmers, and setting variables to null is the best way to prevent bugs based on it.
Another instance where you will see undefined pop up is when using the delete operator. Those of us from a C-world might incorrectly interpret this as destroying an object, but it is not so. What this operation does is remove a subscript from an Array or a member from an Object. For Arrays it does not effect the length, but rather that subscript is now considered undefined.
var a = [ 'a', 'b', 'c' ];
delete a[1];
for (var i = 0; i < a.length; i++)
WScript.Echo((i+".) "+a[i]);
The result of the above script is:
0.) a
1.) undefined
2.) c
You will also get undefined returned when reading a subscript or member that never existed.
The difference between null and undefined is: JavaScript will never set anything to null, that's usually what we do. While we can set variables to undefined, we prefer null because it's not something that is ever done for us. When you're debugging this means that anything set to null is of your own doing and not JavaScript. Beyond that, these two special values are nearly equivalent.
null is a special keyword that indicates an absence of value.
think about it as a value, like:
- "foo" is string,
- true is boolean ,
- 1234 is number,
- null is undefined.
undefined property indicates that a variable has not been assigned a value including null too . Like
var foo;
defined empty variable is null
of datatype undefined
Both of them are representing a value of a variable with no value
AND
null
doesn't represent a string that has no value - empty string-
Like
var a = '';
console.log(typeof a); // string
console.log(a == null); //false
console.log(a == undefined); // false
Now if
var a;
console.log(a == null); //true
console.log(a == undefined); //true
BUT
var a;
console.log(a === null); //false
console.log(a === undefined); // true
SO each one has it own way to use
undefined use it to compare the variable data type
null use it to empty a value of a variable
var a = 'javascript';
a = null ; // will change the type of variable "a" from string to object
Please read the following carefully. It should remove all your doubts regarding the difference between null
and undefined
in JavaScript. Also, you can use the utility function at the end of this answer to get more specific types of variables.
In JavaScript we can have the following types of variables:
- Undeclared Variables
- Declared but Unassigned Variables
- Variables assigned with literal
undefined
- Variables assigned with literal
null
- Variables assigned with anything other than
undefined
ornull
The following explains each of these cases one by one:
Undeclared Variables
- Can only be checked with the
typeof
operator which returns string 'undefined' - Cannot be checked with the loose equality operator (
== undefined
), let alone the strict equality operator (=== undefined
),
as well as if-statements and ternary operators (? :
) — these throw Reference Errors
- Can only be checked with the
Declared but Unassigned Variables
typeof
returns string 'undefined'==
check withnull
returnstrue
==
check withundefined
returnstrue
===
check withnull
returnsfalse
===
check withundefined
returnstrue
- Is falsy to if-statements and ternary operators (
? :
)
Variables assigned with literal
undefined
These variables are treated exactly the same as Declared But Unassigned Variables.Variables assigned with literal
null
typeof
returns string 'object'==
check withnull
returnstrue
==
check withundefined
returnstrue
===
check withnull
returnstrue
===
check withundefined
returnsfalse
- Is falsy to if-statements and ternary operators (
? :
)
Variables assigned with anything other than
undefined
ornull
- typeof returns one of the following strings: 'bigint', 'boolean', 'function', 'number', 'object', 'string', 'symbol'
Following provides the algorithm for correct type checking of a variable:
- Get the
typeof
our variable and return it if it isn't 'object' - Check for
null
, astypeof null
returns 'object' as well - Evaluate Object.prototype.toString.call(o) with a switch statement to return a more precise value.
Object
'stoString
method returns strings that look like '[object ConstructorName]' for native/host objects. For all other objects (user-defined objects), it always returns '[object Object]' - If that last part is the case (the stringified version of the variable being '[object Object]') and the parameter returnConstructorBoolean is
true
, it will try to get the name of the constructor bytoString
-ing it and extracting the name from there. If the constructor can't be reached, 'object' is returned as usual. If the string doesn't contain its name, 'anonymous' is returned
(supports all types up to ECMAScript 2020)
function TypeOf(o, returnConstructorBoolean) {
const type = typeof o
if (type !== 'object') return type
if (o === null) return 'null'
const toString = Object.prototype.toString.call(o)
switch (toString) {
// Value types: 6
case '[object BigInt]': return 'bigint'
case '[object Boolean]': return 'boolean'
case '[object Date]': return 'date'
case '[object Number]': return 'number'
case '[object String]': return 'string'
case '[object Symbol]': return 'symbol'
// Error types: 7
case '[object Error]': return 'error'
case '[object EvalError]': return 'evalerror'
case '[object RangeError]': return 'rangeerror'
case '[object ReferenceError]': return 'referenceerror'
case '[object SyntaxError]': return 'syntaxerror'
case '[object TypeError]': return 'typeerror'
case '[object URIError]': return 'urierror'
// Indexed Collection and Helper types: 13
case '[object Array]': return 'array'
case '[object Int8Array]': return 'int8array'
case '[object Uint8Array]': return 'uint8array'
case '[object Uint8ClampedArray]': return 'uint8clampedarray'
case '[object Int16Array]': return 'int16array'
case '[object Uint16Array]': return 'uint16array'
case '[object Int32Array]': return 'int32array'
case '[object Uint32Array]': return 'uint32array'
case '[object Float32Array]': return 'float32array'
case '[object Float64Array]': return 'float64array'
case '[object ArrayBuffer]': return 'arraybuffer'
case '[object SharedArrayBuffer]': return 'sharedarraybuffer'
case '[object DataView]': return 'dataview'
// Keyed Collection types: 2
case '[object Map]': return 'map'
case '[object WeakMap]': return 'weakmap'
// Set types: 2
case '[object Set]': return 'set'
case '[object WeakSet]': return 'weakset'
// Operation types: 3
case '[object RegExp]': return 'regexp'
case '[object Proxy]': return 'proxy'
case '[object Promise]': return 'promise'
// Plain objects
case '[object Object]':
if (!returnConstructorBoolean)
return type
const _prototype = Object.getPrototypeOf(o)
if (!_prototype)
return type
const _constructor = _prototype.constructor
if (!_constructor)
return type
const matches = Function.prototype.toString.call(_constructor).match(/^function\s*([^\s(]+)/)
return matches ? matches[1] : 'anonymous'
default: return toString.split(' ')[1].slice(0, -1)
}
}
null and undefined are two distinct object types which have the following in common:
- both can only hold a single value, null and undefined respectively;
- both have no properties or methods and an attempt to read any properties of either will result in a run-time error (for all other objects, you get value undefined if you try to read a non-existent property);
- values null and undefined are considered equal to each other and to nothing else by
==
and!=
operators.
The similarities however end here. For once, there is a fundamental difference in the way how keywords null and undefined are implemented. This is not obvious, but consider the following example:
var undefined = "foo";
WScript.Echo(undefined); // This will print: foo
undefined, NaN and Infinity are just names of preinitialized "superglobal" variables - they are initialized at run-time and can be overridden by normal global or local variable with the same names.
Now, let's try the same thing with null:
var null = "foo"; // This will cause a compile-time error
WScript.Echo(null);
Oops! null, true and false are reserved keywords - compiler won't let you use them as variable or property names
Another difference is that undefined is a primitive type, while null is an object type (indicating the absense of an object reference). Consider the following:
WScript.Echo(typeof false); // Will print: boolean
WScript.Echo(typeof 0); // Will print: number
WScript.Echo(typeof ""); // Will print: string
WScript.Echo(typeof {}); // Will print: object
WScript.Echo(typeof undefined); // Will print: undefined
WScript.Echo(typeof null); // (!!!) Will print: object
Also, there is an important difference in the way null and undefined are treated in numeric context:
var a; // declared but uninitialized variables hold the value undefined
WScript.Echo(a === undefined); // Prints: -1
var b = null; // the value null must be explicitly assigned
WScript.Echo(b === null); // Prints: -1
WScript.Echo(a == b); // Prints: -1 (as expected)
WScript.Echo(a >= b); // Prints: 0 (WTF!?)
WScript.Echo(a >= a); // Prints: 0 (!!!???)
WScript.Echo(isNaN(a)); // Prints: -1 (a evaluates to NaN!)
WScript.Echo(1*a); // Prints: -1.#IND (in Echo output this means NaN)
WScript.Echo(b >= b); // Prints: -1 (as expected)
WScript.Echo(isNaN(b)); // Prints: 0 (b evaluates to a valid number)
WScript.Echo(1*b); // Prints: 0 (b evaluates to 0)
WScript.Echo(a >= 0 && a <= 0); // Prints: 0 (as expected)
WScript.Echo(a == 0); // Prints: 0 (as expected)
WScript.Echo(b >= 0 && b <= 0); // Prints: -1 (as expected)
WScript.Echo(b == 0); // Prints: 0 (!!!)
null becomes 0 when used in arithmetic expressions or numeric comparisons - similarly to false, it is basically just a special kind of "zero". undefined, on the other hand, is a true "nothing" and becomes NaN ("not a number") when you try to use it in numeric context.
Note that null and undefined receive a special treatment from ==
and !=
operators, but you can test true numeric equality of a and b with the expression (a >= b && a <= b)
.
The best way to understand the difference is to first clear your mind of the inner workings of JavaScript and just understand the differences in meaning between:
let supervisor = "None"
// I have a supervisor named "None"
let supervisor = null
// I do NOT have a supervisor. It is a FACT that I do not.
let supervisor = undefined
// I may or may not have a supervisor. I either don't know
// if I do or not, or I am choosing not to tell you. It is
// irrelevant or none of your business.
There is a difference in meaning between these three cases, and JavaScript distinguishes the latter two cases with two different values, null
and undefined
. You are free to use those values explicitly to convey those meanings.
So what are some of the JavaScript-specific issues that arise due to this philosophical basis?
A declared variable without an initializer gets the value
undefined
because you never said anything about the what the intended value was.let supervisor; assert(supervisor === undefined);
A property of an object that has never been set evaluates to
undefined
because no one ever said anything about that property.const dog = { name: 'Sparky', age: 2 }; assert(dog.breed === undefined);
null
andundefined
are "similar" to each other because Brendan Eich said so. But they are emphatically not equal to each other.assert(null == undefined); assert(null !== undefined);
null
andundefined
thankfully have different types.null
belongs to the typeNull
andundefined
to the typeUndefined
. This is in the spec, but you would never know this because of thetypeof
weirdness which I will not repeat here.A function reaching the end of its body without an explicit return statement returns
undefined
since you don't know anything about what it returned.
By the way, there are other forms of "nothingness" in JavaScript (it's good to have studied Philosophy....)
NaN
- Using a variable that has never been declared and receiving a
ReferenceError
- Using a
let
orconst
defined local variable in its temporal dead zone and receiving aReferenceError
Empty cells in sparse arrays. Yes these are not even
undefined
although they compare===
to undefined.$ node > const a = [1, undefined, 2] > const b = [1, , 2] > a [ 1, undefined, 2 ] > b [ 1, <1 empty item>, 2 ]
tl;dr
Use null
for set a variable you know it is an Object.
Use undefined
for set a variable whose type is mixed.
This is my usage of both 5 primitives and Object type, and that explain the difference between « use case » of undefined
or null
.
String
If you know a variable is only a string while all lifecycle, by convention, you could initialize it, to ""
:
("") ? true : false; // false
typeof ""; // "string";
("Hello World") ? true : false; // true
typeof "Hello World"; // "string"
Number
If you know a variable is only a number while all lifecycle, by convention, you could initialize it, to 0
(or NaN
if 0
is an important value in your usage):
(0) ? true : false; // false
typeof 0; // "number";
(16) ? true : false; // true
typeof 16; // "number"
or
(NaN) ? true : false; // false
typeof NaN; // "number";
(16) ? true : false; // true
typeof 16; // "number"
Boolean
If you know a variable is only a boolean while all lifecycle, by convention, you could initialize it, to false
:
(false) ? true : false; // false
typeof false; // "boolean";
(true) ? true : false; // true
typeof true; // "boolean"
Object
If you know a variable is only an Object while all lifecycle, by convention, you could initialize it, to null
:
(null) ? true : false; // false
typeof null; // "object";
({}) ? true : false; // true
typeof {}; // "object"
Note: the smart usage off null is to be the falsy version of an Object because an Object is always true
, and because typeof null
return object
. That means typeof myVarObject
return consistent value for both Object and null type.
All
If you know a variable has a mixed type (any type while all lifecycle), by convention, you could initialize it, to undefined
.
In JavasSript there are 5 primitive data types String , Number , Boolean , null and undefined. I will try to explain with some simple example
lets say we have a simple function
function test(a) {
if(a == null){
alert("a is null");
} else {
alert("The value of a is " + a);
}
}
also in above function if(a == null) is same as if(!a)
now when we call this function without passing the parameter a
test(); it will alert "a is null";
test(4); it will alert "The value of a is " + 4;
also
var a;
alert(typeof a);
this will give undefined; we have declared a variable but we have not asigned any value to this variable; but if we write
var a = null;
alert(typeof a); will give alert as object
so null is an object. in a way we have assigned a value null to 'a'
When you declare a variable in javascript, it is assigned the value undefined
. This means the variable is untouched and can be assigned any value in future. It also implies that you don't know the value that this variable is going to hold at the time of declaration.
Now you can explicitly assign a variable null
. It means that the variable does not have any value. For example - Some people don't have a middle name. So in such a case its better to assign the value null to the middlename variable of a person object.
Now suppose that someone is accessing the middlename variable of your person object and it has the value undefined
. He wouldn't know if the developer forgot to initialize this variable or if it didn't have any value. If it has the value null
, then the user can easily infer that middlename doesn't have any value and it is not an untouched variable.
OK, we may get confused when we hear about null
and undefined
, but let's start it simple, they both are falsy and similar in many ways, but weird part of JavaScript, make them a couple of significant differences, for example, typeof null
is 'object'
while typeof undefined
is 'undefined'
.
typeof null; //"object"
typeof undefined; //"undefined";
But if you check them with ==
as below, you see they are both falsy:
null==undefined; //true
Also you can assign null
to an object property or to a primitive, while undefined
can simply be achieved by not assigning to anything.
I create a quick image to show the differences for you at a glance.
For the undefined
type, there is one and only one value: undefined
.
For the null
type, there is one and only one value: null
.
So for both of them, the label is both its type and its value.
The difference between them. For example:
null
is an empty valueundefined
is a missing value
Or:
undefined
hasn't had a value yetnull
had a value and doesn't anymore
Actually, null
is a special keyword, not an identifier, and thus you cannot treat it as a variable to assign to.
However, undefined
is an identifier. In both non-strict
mode and strict
mode, however, you can create a local variable of the name undefined. But this is one terrible idea!
function foo() {
undefined = 2; // bad idea!
}
foo();
function foo() {
"use strict";
undefined = 2; // TypeError!
}
foo();
In addition to a different meaning there are other differences:
- Object destructuring works differently for these two values:
const { a = "default" } = { a: undefined }; // a is "default" const { b = "default" } = { b: null }; // b is null
- JSON.stringify() keeps
null
but omitsundefined
const json = JSON.stringify({ undefinedValue: undefined, nullValue: null }); console.log(json); // prints {"nullValue":null}
- typeof operator
console.log(typeof undefined); // "undefined" console.log(typeof null); // "object" instead of "null"
null and undefined are both are used to represent the absence of some value.
var a = null;
a is initialized and defined.
typeof(a)
//object
null is an object in JavaScript
Object.prototype.toString.call(a) // [object Object]
var b;
b is undefined and uninitialized
undefined object properties are also undefined. For example "x" is not defined on object c and if you try to access c.x, it will return undefined.
Generally we assign null to variables not undefined.
In javascript all variables are stored as key value pairs. Each variable is stored as variable_name : variable_value/reference.
undefined means a variable has been given a space in memory, but no value is assigned to it. As a best practice, you should not use this type as an assignment.
In that case how to denote when you want a variable to be without value at a later point in the code? You can use the type null ,which is also a type that is used to define the same thing, absence of a value, but it is not the same as undefined, as in this case you actually have the value in memory. That value is null
Both are similar but usage and meaning are different.
I want to add a very subtle difference between null
and undefined
which is good to know when you are trying to learn Vanilla JavaScript(JS) from ground up:
null
is a reserved keyword in JS whileundefined
is a variable on the global object of the run-time environment you're in.
While writing code, this difference is not identifiable as both null
and undefined
are always used in RHS of a JavaScript statement. But when you use them in LHS of an expression then you can observe this difference easily. So JS interpreter interprets the below code as error:
var null = 'foo'
It gives below error:
Uncaught SyntaxError: Unexpected token null
While below code runs successfully although I won't recommend doing so in real life:
var undefined = 'bar'
This works because undefined
is a variable on the global object (browser window object in case of client-side JS)
null - It is an assignment value, which is used with variable to represent no value (it's an object).
undefined - It is a variable which does not have any value assigned to it, so JavaScript will assign an undefined to it (it's a data type).
undeclared - If a variable is not created at all, it is known as undeclared.
Check this out. The output is worth thousand words.
var b1 = document.getElementById("b1");
checkif("1, no argument" );
checkif("2, undefined explicitly", undefined);
checkif("3, null explicitly", null);
checkif("4, the 0", 0);
checkif("5, empty string", '');
checkif("6, string", "string");
checkif("7, number", 123456);
function checkif (a1, a2) {
print("\ncheckif(), " + a1 + ":");
if (a2 == undefined) {
print("==undefined: YES");
} else {
print("==undefined: NO");
}
if (a2 === undefined) {
print("===undefined: YES");
} else {
print("===undefined: NO");
}
if (a2 == null) {
print("==null: YES");
} else {
print("==null: NO");
}
if (a2 === null) {
print("===null: YES");
} else {
print("===null: NO");
}
if (a2 == '') {
print("=='': YES");
} else {
print("=='': NO");
}
if (a2 === '') {
print("==='': YES");
} else {
print("==='': NO");
}
if (isNaN(a2)) {
print("isNaN(): YES");
} else {
print("isNaN(): NO");
}
if (a2) {
print("if-?: YES");
} else {
print("if-?: NO");
}
print("typeof(): " + typeof(a2));
}
function print(v) {
b1.innerHTML += v + "\n";
}
<!DOCTYPE html>
<html>
<body>
<pre id="b1"></pre>
</body>
</html>
See also:
- https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/undefined
- https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/NaN
- https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/null
- https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Operators/Comparison_Operators
Cheers!
The difference between undefined
and null
is minimal, but there is a difference. A variable whose value is undefined
has never been initialized. A variable whose value is null
was explicitly given a value of null
, which means that the variable was explicitly set to have no value. If you compare undefined
and null
by using the null==undefined
expression, they will be equal.
Basically, Undefined is a global variable that javascript create at the run time whether null means that no value has assigned to the variable (actually null is itself an object).
Let's take an example:
var x; //we declared a variable x, but no value has been assigned to it.
document.write(x) //let's print the variable x
Undefined that's what you will get as output.
Now,
x=5;
y=null;
z=x+y;
and you will get 5 as output. That's the main difference between the Undefined and null
Both special values imply an empty state.
The main difference is that undefined represents the value of a variable that wasn’t yet initialized, while null represents an intentional absence of an object.
The variable number is defined, however, is not assigned with an initial value:
let number;
number; // => undefined
number variable is undefined, which clearly indicates an uninitialized variable
The same uninitialized concept happens when a non-existing object property is accessed:
const obj = { firstName: 'Dmitri' };
obj.lastName; // => undefined
Because lastName property does not exist in obj, JavaScript correctly evaluates obj.lastName to undefined.
In other cases, you know that a variable expects to hold an object or a function to return an object. But for some reason, you can’t instantiate the object. In such a case null is a meaningful indicator of a missing object.
For example, clone() is a function that clones a plain JavaScript object. The function is expected to return an object:
function clone(obj) {
if (typeof obj === 'object' && obj !== null) {
return Object.assign({}, obj);
}
return null;
}
clone({name: 'John'}); // => {name: 'John'}
clone(15); // => null
clone(null); // => null
However, clone() might be invoked with a non-object argument: 15 or null (or generally a primitive value, null or undefined). In such case, the function cannot create a clone, so it returns null - the indicator of a missing object.
typeof operator makes the distinction between the two values:
typeof undefined; // => 'undefined'
typeof null; // => 'object'
The strict quality operator === correctly differentiates undefined from null:
let nothing = undefined;
let missingObject = null;
nothing === missingObject; // => false
The difference in meaning between undefined and null is an accident of JavaScript’s design, and it doesn’t matter most of the time. In cases where you actually have to concern yourself with these values, I recommend treating them as mostly interchangeable.
From the Eloquent Javascript book
Quote from "Eloquent Javascript" 3rd edition by Marijn Haverbeke:
The difference in meaning between
undefined
andnull
is an accident of Javascript's design, and it doesn't matter most of the time. In cases where you actually have to concern yourself with these values, I recommend treating them as mostly interchangeable
Honestly, at first, I am a bit skeptical about this advice. However, in my own interpretation, it is a lazy
(vs eager
) way to deal with their differences. Maybe, we don't have to deal with the differences at all. If we have to, we can delay our concern (util we have to) and not hyperactively/defensively
worry about it every step of the way as those values (null
and undefined
) flow through our code.
PS: This is not a direct answer to your question. This is just a related opinion.
null
value in JavaScript? – outisnull
is you set it to empty,undefined
it's empty because it has not been set. Ornull
is empty on purpose, whileundefined
is still empty. Basically it shows intent. – Muhammad Umer