Logical && operator - javascript

Having an unpredicted outcome using the && logical operator. If I link more than 2 expressions, the if clause fails. Is there some limit to the number of expressions that can be concatenated using &&?
if (tTellerProN.checked && tCareProN.checked && tSalesProN.checked) {
$(flListEmpty).empty();
$(flListEmpty).append($('<option></option>').val(0).html("Select Role"));
$('.fl_list1 .list4').each(function (index) {
$(flListEmpty).append($('<option> </option>').val(index).html($(this).text()));
})
}

&& is not a jQuery operator, it is Javascript. jQuery is a library that builds on Javascript.
I'm not sure what the ** is in your IF statment but this code works:
var x = true;
var y = true;
var z = true;
alert(x && y && z); // true
alert(x && y && !z); // false
I would alert the values of your 3 .checked parameters and make sure they are being set as you expected.

No, there is no limit. Your expression requires that all three checked values are true, otherwise it will return false. One of them must be false (or not true), that's why your if is failing.
For the record: && is part of the javascript language, not the jQuery library.

No, there is no limit.
However looking at your code (what little there is of it and with such descriptive variable names used), I would venture a guess that you actually mean ||, not &&.

i made a test case here with both && and ||: http://jsfiddle.net/VcmCM/

Related

Why is my variable returning 'false' when using an && operator

I am learning basic conditionals and i'm not 100% sure on why the && in this case is returning 'false' in console.
Is it because the variable is not both 0 and 1.
Thank you in advance,
let i = 1;
if (i == 0 && i == 1) {
console.log('true');
} else {
console.log('false');
}
I was expecting true.
Even if I set var i = 01; it still shows false.
I just need a simple explanation why to get it clear in my head :)
i is not equal to 0, therefore the logical AND expression immediately fails; the else block is then evaluated, printing false.
If you change AND to OR, the code will work as you probably expect.
let i = 1;
if (i == 0 || i == 1) {
console.log('true');
} else {
console.log('false');
}
For an AND (&&) expression to evaluate to true, both sides of the expression need to be true.
For an OR (||) expression to evaluate to true, one or both side(s) of the expression need(s) to be true.
For an XOR (JS does not have a logical XOR operator) expression to evaluate to true, one and only one side of the expression needs to be true.
Note: in JS, never attempt to write a number literal with a leading zero. This is because in non-strict mode environments such numbers are interpreted as octal numbers; in strict-mode environments you'll get an error.
How would i be able to be two values at once? Even if you did something like const i = [0, 1] it would still return false.
i = 01
Why would this work? The only way this would work is if you made it a string, split it, assigned it to two different variables, and then ran the check against those two variables.
Perhaps you are thinking of the OR operator ||.
let i = 1;
if (1 === 0 || i === 1) {
return true;
} else {
return false;
}
Or even use ternaries, which are, from looking at this question, way beyond your skill:
let i = 1;
const j = i === 0 || i === 1 ? true : false;
console.log(j);

how can I iterate the elements of an array and show a message when it's in the middle in javascript? [duplicate]

This question's answers are a community effort. Edit existing answers to improve this post. It is not currently accepting new answers or interactions.
I'm using JSLint to go through JavaScript, and it's returning many suggestions to replace == (two equals signs) with === (three equals signs) when doing things like comparing idSele_UNVEHtype.value.length == 0 inside of an if statement.
Is there a performance benefit to replacing == with ===?
Any performance improvement would be welcomed as many comparison operators exist.
If no type conversion takes place, would there be a performance gain over ==?
The strict equality operator (===) behaves identically to the abstract equality operator (==) except no type conversion is done, and the types must be the same to be considered equal.
Reference: Javascript Tutorial: Comparison Operators
The == operator will compare for equality after doing any necessary type conversions. The === operator will not do the conversion, so if two values are not the same type === will simply return false. Both are equally quick.
To quote Douglas Crockford's excellent JavaScript: The Good Parts,
JavaScript has two sets of equality operators: === and !==, and their evil twins == and !=. The good ones work the way you would expect. If the two operands are of the same type and have the same value, then === produces true and !== produces false. The evil twins do the right thing when the operands are of the same type, but if they are of different types, they attempt to coerce the values. the rules by which they do that are complicated and unmemorable. These are some of the interesting cases:
'' == '0' // false
0 == '' // true
0 == '0' // true
false == 'false' // false
false == '0' // true
false == undefined // false
false == null // false
null == undefined // true
' \t\r\n ' == 0 // true
The lack of transitivity is alarming. My advice is to never use the evil twins. Instead, always use === and !==. All of the comparisons just shown produce false with the === operator.
Update:
A good point was brought up by #Casebash in the comments and in #Phillipe Laybaert's answer concerning objects. For objects, == and === act consistently with one another (except in a special case).
var a = [1,2,3];
var b = [1,2,3];
var c = { x: 1, y: 2 };
var d = { x: 1, y: 2 };
var e = "text";
var f = "te" + "xt";
a == b // false
a === b // false
c == d // false
c === d // false
e == f // true
e === f // true
The special case is when you compare a primitive with an object that evaluates to the same primitive, due to its toString or valueOf method. For example, consider the comparison of a string primitive with a string object created using the String constructor.
"abc" == new String("abc") // true
"abc" === new String("abc") // false
Here the == operator is checking the values of the two objects and returning true, but the === is seeing that they're not the same type and returning false. Which one is correct? That really depends on what you're trying to compare. My advice is to bypass the question entirely and just don't use the String constructor to create string objects from string literals.
Reference
http://www.ecma-international.org/ecma-262/5.1/#sec-11.9.3
Using the == operator (Equality)
true == 1; //true, because 'true' is converted to 1 and then compared
"2" == 2; //true, because "2" is converted to 2 and then compared
Using the === operator (Identity)
true === 1; //false
"2" === 2; //false
This is because the equality operator == does type coercion, meaning that the interpreter implicitly tries to convert the values before comparing.
On the other hand, the identity operator === does not do type coercion, and thus does not convert the values when comparing.
Here's an interesting visualisation of the equality comparison between == and ===.
Source: https://github.com/dorey/JavaScript-Equality-Table (demo, unified demo)
var1 === var2
When using === for JavaScript equality testing, everything is as is.
Nothing gets converted before being evaluated.
var1 == var2
When using == for JavaScript equality testing, some funky conversions take place.
Summary of equality in Javascript
Conclusion:
Always use ===, unless you fully understand the funky conversions that take place with ==.
In the answers here, I didn't read anything about what equal means. Some will say that === means equal and of the same type, but that's not really true. It actually means that both operands reference the same object, or in case of value types, have the same value.
So, let's take the following code:
var a = [1,2,3];
var b = [1,2,3];
var c = a;
var ab_eq = (a === b); // false (even though a and b are the same type)
var ac_eq = (a === c); // true
The same here:
var a = { x: 1, y: 2 };
var b = { x: 1, y: 2 };
var c = a;
var ab_eq = (a === b); // false (even though a and b are the same type)
var ac_eq = (a === c); // true
Or even:
var a = { };
var b = { };
var c = a;
var ab_eq = (a === b); // false (even though a and b are the same type)
var ac_eq = (a === c); // true
This behavior is not always obvious. There's more to the story than being equal and being of the same type.
The rule is:
For value types (numbers):
a === b returns true if a and b have the same value and are of the same type
For reference types:
a === b returns true if a and b reference the exact same object
For strings:
a === b returns true if a and b are both strings and contain the exact same characters
Strings: the special case...
Strings are not value types, but in Javascript they behave like value types, so they will be "equal" when the characters in the string are the same and when they are of the same length (as explained in the third rule)
Now it becomes interesting:
var a = "12" + "3";
var b = "123";
alert(a === b); // returns true, because strings behave like value types
But how about this?:
var a = new String("123");
var b = "123";
alert(a === b); // returns false !! (but they are equal and of the same type)
I thought strings behave like value types? Well, it depends who you ask... In this case a and b are not the same type. a is of type Object, while b is of type string. Just remember that creating a string object using the String constructor creates something of type Object that behaves as a string most of the time.
Let me add this counsel:
If in doubt, read the specification!
ECMA-262 is the specification for a scripting language of which JavaScript is a dialect. Of course in practice it matters more how the most important browsers behave than an esoteric definition of how something is supposed to be handled. But it is helpful to understand why new String("a") !== "a".
Please let me explain how to read the specification to clarify this question. I see that in this very old topic nobody had an answer for the very strange effect. So, if you can read a specification, this will help you in your profession tremendously. It is an acquired skill. So, let's continue.
Searching the PDF file for === brings me to page 56 of the specification: 11.9.4. The Strict Equals Operator ( === ), and after wading through the specificationalese I find:
11.9.6 The Strict Equality Comparison Algorithm
The comparison x === y, where x and y are values, produces true or false. Such a comparison is performed as follows:
  1. If Type(x) is different from Type(y), return false.
  2. If Type(x) is Undefined, return true.
  3. If Type(x) is Null, return true.
  4. If Type(x) is not Number, go to step 11.
  5. If x is NaN, return false.
  6. If y is NaN, return false.
  7. If x is the same number value as y, return true.
  8. If x is +0 and y is −0, return true.
  9. If x is −0 and y is +0, return true.
  10. Return false.
  11. If Type(x) is String, then return true if x and y are exactly the same sequence of characters (same length and same characters in corresponding positions); otherwise, return false.
  12. If Type(x) is Boolean, return true if x and y are both true or both false; otherwise, return false.
  13. Return true if x and y refer to the same object or if they refer to objects joined to each other (see 13.1.2). Otherwise, return false.
Interesting is step 11. Yes, strings are treated as value types. But this does not explain why new String("a") !== "a". Do we have a browser not conforming to ECMA-262?
Not so fast!
Let's check the types of the operands. Try it out for yourself by wrapping them in typeof(). I find that new String("a") is an object, and step 1 is used: return false if the types are different.
If you wonder why new String("a") does not return a string, how about some exercise reading a specification? Have fun!
Aidiakapi wrote this in a comment below:
From the specification
11.2.2 The new Operator:
If Type(constructor) is not Object, throw a TypeError exception.
With other words, if String wouldn't be of type Object it couldn't be used with the new operator.
new always returns an Object, even for String constructors, too. And alas! The value semantics for strings (see step 11) is lost.
And this finally means: new String("a") !== "a".
I tested this in Firefox with Firebug using code like this:
console.time("testEquality");
var n = 0;
while (true) {
n++;
if (n == 100000)
break;
}
console.timeEnd("testEquality");
and
console.time("testTypeEquality");
var n = 0;
while (true) {
n++;
if (n === 100000)
break;
}
console.timeEnd("testTypeEquality");
My results (tested five times each and averaged):
==: 115.2
===: 114.4
So I'd say that the miniscule difference (this is over 100000 iterations, remember) is negligible. Performance isn't a reason to do ===. Type safety (well, as safe as you're going to get in JavaScript), and code quality is.
In PHP and JavaScript, it is a strict equality operator. Which means, it will compare both type and values.
In JavaScript it means of the same value and type.
For example,
4 == "4" // will return true
but
4 === "4" // will return false
Why == is so unpredictable?
What do you get when you compare an empty string "" with the number zero 0?
true
Yep, that's right according to == an empty string and the number zero are the same time.
And it doesn't end there, here's another one:
'0' == false // true
Things get really weird with arrays.
[1] == true // true
[] == false // true
[[]] == false // true
[0] == false // true
Then weirder with strings
[1,2,3] == '1,2,3' // true - REALLY?!
'\r\n\t' == 0 // true - Come on!
It get's worse:
When is equal not equal?
let A = '' // empty string
let B = 0 // zero
let C = '0' // zero string
A == B // true - ok...
B == C // true - so far so good...
A == C // **FALSE** - Plot twist!
Let me say that again:
(A == B) && (B == C) // true
(A == C) // **FALSE**
And this is just the crazy stuff you get with primitives.
It's a whole new level of crazy when you use == with objects.
At this point your probably wondering...
Why does this happen?
Well it's because unlike "triple equals" (===) which just checks if two values are the same.
== does a whole bunch of other stuff.
It has special handling for functions, special handling for nulls, undefined, strings, you name it.
It get's pretty wacky.
In fact, if you tried to write a function that does what == does it would look something like this:
function isEqual(x, y) { // if `==` were a function
if(typeof y === typeof x) return y === x;
// treat null and undefined the same
var xIsNothing = (y === undefined) || (y === null);
var yIsNothing = (x === undefined) || (x === null);
if(xIsNothing || yIsNothing) return (xIsNothing && yIsNothing);
if(typeof y === "function" || typeof x === "function") {
// if either value is a string
// convert the function into a string and compare
if(typeof x === "string") {
return x === y.toString();
} else if(typeof y === "string") {
return x.toString() === y;
}
return false;
}
if(typeof x === "object") x = toPrimitive(x);
if(typeof y === "object") y = toPrimitive(y);
if(typeof y === typeof x) return y === x;
// convert x and y into numbers if they are not already use the "+" trick
if(typeof x !== "number") x = +x;
if(typeof y !== "number") y = +y;
// actually the real `==` is even more complicated than this, especially in ES6
return x === y;
}
function toPrimitive(obj) {
var value = obj.valueOf();
if(obj !== value) return value;
return obj.toString();
}
So what does this mean?
It means == is complicated.
Because it's complicated it's hard to know what's going to happen when you use it.
Which means you could end up with bugs.
So the moral of the story is...
Make your life less complicated.
Use === instead of ==.
The End.
The === operator is called a strict comparison operator, it does differ from the == operator.
Lets take 2 vars a and b.
For "a == b" to evaluate to true a and b need to be the same value.
In the case of "a === b" a and b must be the same value and also the same type for it to evaluate to true.
Take the following example
var a = 1;
var b = "1";
if (a == b) //evaluates to true as a and b are both 1
{
alert("a == b");
}
if (a === b) //evaluates to false as a is not the same type as b
{
alert("a === b");
}
In summary; using the == operator might evaluate to true in situations where you do not want it to so using the === operator would be safer.
In the 90% usage scenario it won't matter which one you use, but it is handy to know the difference when you get some unexpected behaviour one day.
=== checks same sides are equal in type as well as value.
Example:
'1' === 1 // will return "false" because `string` is not a `number`
Common example:
0 == '' // will be "true", but it's very common to want this check to be "false"
Another common example:
null == undefined // returns "true", but in most cases a distinction is necessary
Many times an untyped check would be handy because you do not care if the value is either undefined, null, 0 or ""
Javascript execution flow diagram for strict equality / Comparison '==='
Javascript execution flow diagram for non strict equality / comparison '=='
JavaScript === vs == .
0==false // true
0===false // false, because they are of a different type
1=="1" // true, auto type coercion
1==="1" // false, because they are of a different type
It means equality without type coercion
type coercion means JavaScript do not automatically convert any other data types to string data types
0==false // true,although they are different types
0===false // false,as they are different types
2=='2' //true,different types,one is string and another is integer but
javaScript convert 2 to string by using == operator
2==='2' //false because by using === operator ,javaScript do not convert
integer to string
2===2 //true because both have same value and same types
In a typical script there will be no performance difference. More important may be the fact that thousand "===" is 1 KB heavier than thousand "==" :) JavaScript profilers can tell you if there is a performance difference in your case.
But personally I would do what JSLint suggests. This recommendation is there not because of performance issues, but because type coercion means ('\t\r\n' == 0) is true.
The equal comparison operator == is confusing and should be avoided.
If you HAVE TO live with it, then remember the following 3 things:
It is not transitive: (a == b) and (b == c) does not lead to (a == c)
It's mutually exclusive to its negation: (a == b) and (a != b) always hold opposite Boolean values, with all a and b.
In case of doubt, learn by heart the following truth table:
EQUAL OPERATOR TRUTH TABLE IN JAVASCRIPT
Each row in the table is a set of 3 mutually "equal" values, meaning that any 2 values among them are equal using the equal == sign*
** STRANGE: note that any two values on the first column are not equal in that sense.**
'' == 0 == false // Any two values among these 3 ones are equal with the == operator
'0' == 0 == false // Also a set of 3 equal values, note that only 0 and false are repeated
'\t' == 0 == false // -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
'\r' == 0 == false // -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
'\n' == 0 == false // -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
'\t\r\n' == 0 == false // -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
null == undefined // These two "default" values are not-equal to any of the listed values above
NaN // NaN is not equal to any thing, even to itself.
There is unlikely to be any performance difference between the two operations in your usage. There is no type-conversion to be done because both parameters are already the same type. Both operations will have a type comparison followed by a value comparison.
Simply
== means comparison between operands with type coercion
and
=== means comparison between operands without type coercion.
Type coercion in JavaScript means automatically converting data types to other data types.
For example:
123 == "123" // Returns true, because JS coerces string "123" to number 123
// and then goes on to compare `123 == 123`.
123 === "123" // Returns false, because JS does not coerce values of different types here.
Yes! It does matter.
=== operator in javascript checks value as well as type where as == operator just checks the value (does type conversion if required).
You can easily test it. Paste following code in an HTML file and open it in browser
<script>
function onPageLoad()
{
var x = "5";
var y = 5;
alert(x === 5);
};
</script>
</head>
<body onload='onPageLoad();'>
You will get 'false' in alert. Now modify the onPageLoad() method to alert(x == 5); you will get true.
As a rule of thumb, I would generally use === instead of == (and !== instead of !=).
Reasons are explained in in the answers above and also Douglas Crockford is pretty clear about it (JavaScript: The Good Parts).
However there is one single exception:
== null is an efficient way to check for 'is null or undefined':
if( value == null ){
// value is either null or undefined
}
For example jQuery 1.9.1 uses this pattern 43 times, and the JSHint syntax checker even provides the eqnull relaxing option for this reason.
From the jQuery style guide:
Strict equality checks (===) should be used in favor of ==. The only
exception is when checking for undefined and null by way of null.
// Check for both undefined and null values, for some important reason.
undefOrNull == null;
EDIT 2021-03:
Nowadays most browsers
support the Nullish coalescing operator (??)
and the Logical nullish assignment (??=), which allows a more concise way to
assign a default value if a variable is null or undefined, for example:
if (a.speed == null) {
// Set default if null or undefined
a.speed = 42;
}
can be written as any of these forms
a.speed ??= 42;
a.speed ?? a.speed = 42;
a.speed = a.speed ?? 42;
It's a strict check test.
It's a good thing especially if you're checking between 0 and false and null.
For example, if you have:
$a = 0;
Then:
$a==0;
$a==NULL;
$a==false;
All returns true and you may not want this. Let's suppose you have a function that can return the 0th index of an array or false on failure. If you check with "==" false, you can get a confusing result.
So with the same thing as above, but a strict test:
$a = 0;
$a===0; // returns true
$a===NULL; // returns false
$a===false; // returns false
=== operator checks the values as well as the types of the variables for equality.
== operator just checks the value of the variables for equality.
JSLint sometimes gives you unrealistic reasons to modify stuff. === has exactly the same performance as == if the types are already the same.
It is faster only when the types are not the same, in which case it does not try to convert types but directly returns a false.
So, IMHO, JSLint maybe used to write new code, but useless over-optimizing should be avoided at all costs.
Meaning, there is no reason to change == to === in a check like if (a == 'test') when you know it for a fact that a can only be a String.
Modifying a lot of code that way wastes developers' and reviewers' time and achieves nothing.
A simple example is
2 == '2' -> true, values are SAME because of type conversion.
2 === '2' -> false, values are NOT SAME because of no type conversion.
The top 2 answers both mentioned == means equality and === means identity. Unfortunately, this statement is incorrect.
If both operands of == are objects, then they are compared to see if they are the same object. If both operands point to the same object, then the equal operator returns true. Otherwise,
the two are not equal.
var a = [1, 2, 3];
var b = [1, 2, 3];
console.log(a == b) // false
console.log(a === b) // false
In the code above, both == and === get false because a and b are not the same objects.
That's to say: if both operands of == are objects, == behaves same as ===, which also means identity. The essential difference of this two operators is about type conversion. == has conversion before it checks equality, but === does not.
The problem is that you might easily get into trouble since JavaScript have a lot of implicit conversions meaning...
var x = 0;
var isTrue = x == null;
var isFalse = x === null;
Which pretty soon becomes a problem. The best sample of why implicit conversion is "evil" can be taken from this code in MFC / C++ which actually will compile due to an implicit conversion from CString to HANDLE which is a pointer typedef type...
CString x;
delete x;
Which obviously during runtime does very undefined things...
Google for implicit conversions in C++ and STL to get some of the arguments against it...
From the core javascript reference
=== Returns true if the operands are strictly equal (see above)
with no type conversion.
Equality comparison:
Operator ==
Returns true, when both operands are equal. The operands are converted to the same type before being compared.
>>> 1 == 1
true
>>> 1 == 2
false
>>> 1 == '1'
true
Equality and type comparison:
Operator ===
Returns true if both operands are equal and of the same type. It's generally
better and safer if you compare this way, because there's no behind-the-scenes type conversions.
>>> 1 === '1'
false
>>> 1 === 1
true
Here is a handy comparison table that shows the conversions that happen and the differences between == and ===.
As the conclusion states:
"Use three equals unless you fully understand the conversions that take
place for two-equals."
http://dorey.github.io/JavaScript-Equality-Table/
null and undefined are nothingness, that is,
var a;
var b = null;
Here a and b do not have values. Whereas, 0, false and '' are all values. One thing common beween all these are that they are all falsy values, which means they all satisfy falsy conditions.
So, the 0, false and '' together form a sub-group. And on other hand, null & undefined form the second sub-group. Check the comparisons in the below image. null and undefined would equal. The other three would equal to each other. But, they all are treated as falsy conditions in JavaScript.
This is same as any object (like {}, arrays, etc.), non-empty string & Boolean true are all truthy conditions. But, they are all not equal.

How does Javascript equality operator works? [duplicate]

This question's answers are a community effort. Edit existing answers to improve this post. It is not currently accepting new answers or interactions.
I'm using JSLint to go through JavaScript, and it's returning many suggestions to replace == (two equals signs) with === (three equals signs) when doing things like comparing idSele_UNVEHtype.value.length == 0 inside of an if statement.
Is there a performance benefit to replacing == with ===?
Any performance improvement would be welcomed as many comparison operators exist.
If no type conversion takes place, would there be a performance gain over ==?
The strict equality operator (===) behaves identically to the abstract equality operator (==) except no type conversion is done, and the types must be the same to be considered equal.
Reference: Javascript Tutorial: Comparison Operators
The == operator will compare for equality after doing any necessary type conversions. The === operator will not do the conversion, so if two values are not the same type === will simply return false. Both are equally quick.
To quote Douglas Crockford's excellent JavaScript: The Good Parts,
JavaScript has two sets of equality operators: === and !==, and their evil twins == and !=. The good ones work the way you would expect. If the two operands are of the same type and have the same value, then === produces true and !== produces false. The evil twins do the right thing when the operands are of the same type, but if they are of different types, they attempt to coerce the values. the rules by which they do that are complicated and unmemorable. These are some of the interesting cases:
'' == '0' // false
0 == '' // true
0 == '0' // true
false == 'false' // false
false == '0' // true
false == undefined // false
false == null // false
null == undefined // true
' \t\r\n ' == 0 // true
The lack of transitivity is alarming. My advice is to never use the evil twins. Instead, always use === and !==. All of the comparisons just shown produce false with the === operator.
Update:
A good point was brought up by #Casebash in the comments and in #Phillipe Laybaert's answer concerning objects. For objects, == and === act consistently with one another (except in a special case).
var a = [1,2,3];
var b = [1,2,3];
var c = { x: 1, y: 2 };
var d = { x: 1, y: 2 };
var e = "text";
var f = "te" + "xt";
a == b // false
a === b // false
c == d // false
c === d // false
e == f // true
e === f // true
The special case is when you compare a primitive with an object that evaluates to the same primitive, due to its toString or valueOf method. For example, consider the comparison of a string primitive with a string object created using the String constructor.
"abc" == new String("abc") // true
"abc" === new String("abc") // false
Here the == operator is checking the values of the two objects and returning true, but the === is seeing that they're not the same type and returning false. Which one is correct? That really depends on what you're trying to compare. My advice is to bypass the question entirely and just don't use the String constructor to create string objects from string literals.
Reference
http://www.ecma-international.org/ecma-262/5.1/#sec-11.9.3
Using the == operator (Equality)
true == 1; //true, because 'true' is converted to 1 and then compared
"2" == 2; //true, because "2" is converted to 2 and then compared
Using the === operator (Identity)
true === 1; //false
"2" === 2; //false
This is because the equality operator == does type coercion, meaning that the interpreter implicitly tries to convert the values before comparing.
On the other hand, the identity operator === does not do type coercion, and thus does not convert the values when comparing.
Here's an interesting visualisation of the equality comparison between == and ===.
Source: https://github.com/dorey/JavaScript-Equality-Table (demo, unified demo)
var1 === var2
When using === for JavaScript equality testing, everything is as is.
Nothing gets converted before being evaluated.
var1 == var2
When using == for JavaScript equality testing, some funky conversions take place.
Summary of equality in Javascript
Conclusion:
Always use ===, unless you fully understand the funky conversions that take place with ==.
In the answers here, I didn't read anything about what equal means. Some will say that === means equal and of the same type, but that's not really true. It actually means that both operands reference the same object, or in case of value types, have the same value.
So, let's take the following code:
var a = [1,2,3];
var b = [1,2,3];
var c = a;
var ab_eq = (a === b); // false (even though a and b are the same type)
var ac_eq = (a === c); // true
The same here:
var a = { x: 1, y: 2 };
var b = { x: 1, y: 2 };
var c = a;
var ab_eq = (a === b); // false (even though a and b are the same type)
var ac_eq = (a === c); // true
Or even:
var a = { };
var b = { };
var c = a;
var ab_eq = (a === b); // false (even though a and b are the same type)
var ac_eq = (a === c); // true
This behavior is not always obvious. There's more to the story than being equal and being of the same type.
The rule is:
For value types (numbers):
a === b returns true if a and b have the same value and are of the same type
For reference types:
a === b returns true if a and b reference the exact same object
For strings:
a === b returns true if a and b are both strings and contain the exact same characters
Strings: the special case...
Strings are not value types, but in Javascript they behave like value types, so they will be "equal" when the characters in the string are the same and when they are of the same length (as explained in the third rule)
Now it becomes interesting:
var a = "12" + "3";
var b = "123";
alert(a === b); // returns true, because strings behave like value types
But how about this?:
var a = new String("123");
var b = "123";
alert(a === b); // returns false !! (but they are equal and of the same type)
I thought strings behave like value types? Well, it depends who you ask... In this case a and b are not the same type. a is of type Object, while b is of type string. Just remember that creating a string object using the String constructor creates something of type Object that behaves as a string most of the time.
Let me add this counsel:
If in doubt, read the specification!
ECMA-262 is the specification for a scripting language of which JavaScript is a dialect. Of course in practice it matters more how the most important browsers behave than an esoteric definition of how something is supposed to be handled. But it is helpful to understand why new String("a") !== "a".
Please let me explain how to read the specification to clarify this question. I see that in this very old topic nobody had an answer for the very strange effect. So, if you can read a specification, this will help you in your profession tremendously. It is an acquired skill. So, let's continue.
Searching the PDF file for === brings me to page 56 of the specification: 11.9.4. The Strict Equals Operator ( === ), and after wading through the specificationalese I find:
11.9.6 The Strict Equality Comparison Algorithm
The comparison x === y, where x and y are values, produces true or false. Such a comparison is performed as follows:
  1. If Type(x) is different from Type(y), return false.
  2. If Type(x) is Undefined, return true.
  3. If Type(x) is Null, return true.
  4. If Type(x) is not Number, go to step 11.
  5. If x is NaN, return false.
  6. If y is NaN, return false.
  7. If x is the same number value as y, return true.
  8. If x is +0 and y is −0, return true.
  9. If x is −0 and y is +0, return true.
  10. Return false.
  11. If Type(x) is String, then return true if x and y are exactly the same sequence of characters (same length and same characters in corresponding positions); otherwise, return false.
  12. If Type(x) is Boolean, return true if x and y are both true or both false; otherwise, return false.
  13. Return true if x and y refer to the same object or if they refer to objects joined to each other (see 13.1.2). Otherwise, return false.
Interesting is step 11. Yes, strings are treated as value types. But this does not explain why new String("a") !== "a". Do we have a browser not conforming to ECMA-262?
Not so fast!
Let's check the types of the operands. Try it out for yourself by wrapping them in typeof(). I find that new String("a") is an object, and step 1 is used: return false if the types are different.
If you wonder why new String("a") does not return a string, how about some exercise reading a specification? Have fun!
Aidiakapi wrote this in a comment below:
From the specification
11.2.2 The new Operator:
If Type(constructor) is not Object, throw a TypeError exception.
With other words, if String wouldn't be of type Object it couldn't be used with the new operator.
new always returns an Object, even for String constructors, too. And alas! The value semantics for strings (see step 11) is lost.
And this finally means: new String("a") !== "a".
I tested this in Firefox with Firebug using code like this:
console.time("testEquality");
var n = 0;
while (true) {
n++;
if (n == 100000)
break;
}
console.timeEnd("testEquality");
and
console.time("testTypeEquality");
var n = 0;
while (true) {
n++;
if (n === 100000)
break;
}
console.timeEnd("testTypeEquality");
My results (tested five times each and averaged):
==: 115.2
===: 114.4
So I'd say that the miniscule difference (this is over 100000 iterations, remember) is negligible. Performance isn't a reason to do ===. Type safety (well, as safe as you're going to get in JavaScript), and code quality is.
In PHP and JavaScript, it is a strict equality operator. Which means, it will compare both type and values.
In JavaScript it means of the same value and type.
For example,
4 == "4" // will return true
but
4 === "4" // will return false
Why == is so unpredictable?
What do you get when you compare an empty string "" with the number zero 0?
true
Yep, that's right according to == an empty string and the number zero are the same time.
And it doesn't end there, here's another one:
'0' == false // true
Things get really weird with arrays.
[1] == true // true
[] == false // true
[[]] == false // true
[0] == false // true
Then weirder with strings
[1,2,3] == '1,2,3' // true - REALLY?!
'\r\n\t' == 0 // true - Come on!
It get's worse:
When is equal not equal?
let A = '' // empty string
let B = 0 // zero
let C = '0' // zero string
A == B // true - ok...
B == C // true - so far so good...
A == C // **FALSE** - Plot twist!
Let me say that again:
(A == B) && (B == C) // true
(A == C) // **FALSE**
And this is just the crazy stuff you get with primitives.
It's a whole new level of crazy when you use == with objects.
At this point your probably wondering...
Why does this happen?
Well it's because unlike "triple equals" (===) which just checks if two values are the same.
== does a whole bunch of other stuff.
It has special handling for functions, special handling for nulls, undefined, strings, you name it.
It get's pretty wacky.
In fact, if you tried to write a function that does what == does it would look something like this:
function isEqual(x, y) { // if `==` were a function
if(typeof y === typeof x) return y === x;
// treat null and undefined the same
var xIsNothing = (y === undefined) || (y === null);
var yIsNothing = (x === undefined) || (x === null);
if(xIsNothing || yIsNothing) return (xIsNothing && yIsNothing);
if(typeof y === "function" || typeof x === "function") {
// if either value is a string
// convert the function into a string and compare
if(typeof x === "string") {
return x === y.toString();
} else if(typeof y === "string") {
return x.toString() === y;
}
return false;
}
if(typeof x === "object") x = toPrimitive(x);
if(typeof y === "object") y = toPrimitive(y);
if(typeof y === typeof x) return y === x;
// convert x and y into numbers if they are not already use the "+" trick
if(typeof x !== "number") x = +x;
if(typeof y !== "number") y = +y;
// actually the real `==` is even more complicated than this, especially in ES6
return x === y;
}
function toPrimitive(obj) {
var value = obj.valueOf();
if(obj !== value) return value;
return obj.toString();
}
So what does this mean?
It means == is complicated.
Because it's complicated it's hard to know what's going to happen when you use it.
Which means you could end up with bugs.
So the moral of the story is...
Make your life less complicated.
Use === instead of ==.
The End.
The === operator is called a strict comparison operator, it does differ from the == operator.
Lets take 2 vars a and b.
For "a == b" to evaluate to true a and b need to be the same value.
In the case of "a === b" a and b must be the same value and also the same type for it to evaluate to true.
Take the following example
var a = 1;
var b = "1";
if (a == b) //evaluates to true as a and b are both 1
{
alert("a == b");
}
if (a === b) //evaluates to false as a is not the same type as b
{
alert("a === b");
}
In summary; using the == operator might evaluate to true in situations where you do not want it to so using the === operator would be safer.
In the 90% usage scenario it won't matter which one you use, but it is handy to know the difference when you get some unexpected behaviour one day.
=== checks same sides are equal in type as well as value.
Example:
'1' === 1 // will return "false" because `string` is not a `number`
Common example:
0 == '' // will be "true", but it's very common to want this check to be "false"
Another common example:
null == undefined // returns "true", but in most cases a distinction is necessary
Many times an untyped check would be handy because you do not care if the value is either undefined, null, 0 or ""
Javascript execution flow diagram for strict equality / Comparison '==='
Javascript execution flow diagram for non strict equality / comparison '=='
JavaScript === vs == .
0==false // true
0===false // false, because they are of a different type
1=="1" // true, auto type coercion
1==="1" // false, because they are of a different type
It means equality without type coercion
type coercion means JavaScript do not automatically convert any other data types to string data types
0==false // true,although they are different types
0===false // false,as they are different types
2=='2' //true,different types,one is string and another is integer but
javaScript convert 2 to string by using == operator
2==='2' //false because by using === operator ,javaScript do not convert
integer to string
2===2 //true because both have same value and same types
In a typical script there will be no performance difference. More important may be the fact that thousand "===" is 1 KB heavier than thousand "==" :) JavaScript profilers can tell you if there is a performance difference in your case.
But personally I would do what JSLint suggests. This recommendation is there not because of performance issues, but because type coercion means ('\t\r\n' == 0) is true.
The equal comparison operator == is confusing and should be avoided.
If you HAVE TO live with it, then remember the following 3 things:
It is not transitive: (a == b) and (b == c) does not lead to (a == c)
It's mutually exclusive to its negation: (a == b) and (a != b) always hold opposite Boolean values, with all a and b.
In case of doubt, learn by heart the following truth table:
EQUAL OPERATOR TRUTH TABLE IN JAVASCRIPT
Each row in the table is a set of 3 mutually "equal" values, meaning that any 2 values among them are equal using the equal == sign*
** STRANGE: note that any two values on the first column are not equal in that sense.**
'' == 0 == false // Any two values among these 3 ones are equal with the == operator
'0' == 0 == false // Also a set of 3 equal values, note that only 0 and false are repeated
'\t' == 0 == false // -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
'\r' == 0 == false // -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
'\n' == 0 == false // -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
'\t\r\n' == 0 == false // -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
null == undefined // These two "default" values are not-equal to any of the listed values above
NaN // NaN is not equal to any thing, even to itself.
There is unlikely to be any performance difference between the two operations in your usage. There is no type-conversion to be done because both parameters are already the same type. Both operations will have a type comparison followed by a value comparison.
Simply
== means comparison between operands with type coercion
and
=== means comparison between operands without type coercion.
Type coercion in JavaScript means automatically converting data types to other data types.
For example:
123 == "123" // Returns true, because JS coerces string "123" to number 123
// and then goes on to compare `123 == 123`.
123 === "123" // Returns false, because JS does not coerce values of different types here.
Yes! It does matter.
=== operator in javascript checks value as well as type where as == operator just checks the value (does type conversion if required).
You can easily test it. Paste following code in an HTML file and open it in browser
<script>
function onPageLoad()
{
var x = "5";
var y = 5;
alert(x === 5);
};
</script>
</head>
<body onload='onPageLoad();'>
You will get 'false' in alert. Now modify the onPageLoad() method to alert(x == 5); you will get true.
As a rule of thumb, I would generally use === instead of == (and !== instead of !=).
Reasons are explained in in the answers above and also Douglas Crockford is pretty clear about it (JavaScript: The Good Parts).
However there is one single exception:
== null is an efficient way to check for 'is null or undefined':
if( value == null ){
// value is either null or undefined
}
For example jQuery 1.9.1 uses this pattern 43 times, and the JSHint syntax checker even provides the eqnull relaxing option for this reason.
From the jQuery style guide:
Strict equality checks (===) should be used in favor of ==. The only
exception is when checking for undefined and null by way of null.
// Check for both undefined and null values, for some important reason.
undefOrNull == null;
EDIT 2021-03:
Nowadays most browsers
support the Nullish coalescing operator (??)
and the Logical nullish assignment (??=), which allows a more concise way to
assign a default value if a variable is null or undefined, for example:
if (a.speed == null) {
// Set default if null or undefined
a.speed = 42;
}
can be written as any of these forms
a.speed ??= 42;
a.speed ?? a.speed = 42;
a.speed = a.speed ?? 42;
It's a strict check test.
It's a good thing especially if you're checking between 0 and false and null.
For example, if you have:
$a = 0;
Then:
$a==0;
$a==NULL;
$a==false;
All returns true and you may not want this. Let's suppose you have a function that can return the 0th index of an array or false on failure. If you check with "==" false, you can get a confusing result.
So with the same thing as above, but a strict test:
$a = 0;
$a===0; // returns true
$a===NULL; // returns false
$a===false; // returns false
=== operator checks the values as well as the types of the variables for equality.
== operator just checks the value of the variables for equality.
JSLint sometimes gives you unrealistic reasons to modify stuff. === has exactly the same performance as == if the types are already the same.
It is faster only when the types are not the same, in which case it does not try to convert types but directly returns a false.
So, IMHO, JSLint maybe used to write new code, but useless over-optimizing should be avoided at all costs.
Meaning, there is no reason to change == to === in a check like if (a == 'test') when you know it for a fact that a can only be a String.
Modifying a lot of code that way wastes developers' and reviewers' time and achieves nothing.
A simple example is
2 == '2' -> true, values are SAME because of type conversion.
2 === '2' -> false, values are NOT SAME because of no type conversion.
The top 2 answers both mentioned == means equality and === means identity. Unfortunately, this statement is incorrect.
If both operands of == are objects, then they are compared to see if they are the same object. If both operands point to the same object, then the equal operator returns true. Otherwise,
the two are not equal.
var a = [1, 2, 3];
var b = [1, 2, 3];
console.log(a == b) // false
console.log(a === b) // false
In the code above, both == and === get false because a and b are not the same objects.
That's to say: if both operands of == are objects, == behaves same as ===, which also means identity. The essential difference of this two operators is about type conversion. == has conversion before it checks equality, but === does not.
The problem is that you might easily get into trouble since JavaScript have a lot of implicit conversions meaning...
var x = 0;
var isTrue = x == null;
var isFalse = x === null;
Which pretty soon becomes a problem. The best sample of why implicit conversion is "evil" can be taken from this code in MFC / C++ which actually will compile due to an implicit conversion from CString to HANDLE which is a pointer typedef type...
CString x;
delete x;
Which obviously during runtime does very undefined things...
Google for implicit conversions in C++ and STL to get some of the arguments against it...
From the core javascript reference
=== Returns true if the operands are strictly equal (see above)
with no type conversion.
Equality comparison:
Operator ==
Returns true, when both operands are equal. The operands are converted to the same type before being compared.
>>> 1 == 1
true
>>> 1 == 2
false
>>> 1 == '1'
true
Equality and type comparison:
Operator ===
Returns true if both operands are equal and of the same type. It's generally
better and safer if you compare this way, because there's no behind-the-scenes type conversions.
>>> 1 === '1'
false
>>> 1 === 1
true
Here is a handy comparison table that shows the conversions that happen and the differences between == and ===.
As the conclusion states:
"Use three equals unless you fully understand the conversions that take
place for two-equals."
http://dorey.github.io/JavaScript-Equality-Table/
null and undefined are nothingness, that is,
var a;
var b = null;
Here a and b do not have values. Whereas, 0, false and '' are all values. One thing common beween all these are that they are all falsy values, which means they all satisfy falsy conditions.
So, the 0, false and '' together form a sub-group. And on other hand, null & undefined form the second sub-group. Check the comparisons in the below image. null and undefined would equal. The other three would equal to each other. But, they all are treated as falsy conditions in JavaScript.
This is same as any object (like {}, arrays, etc.), non-empty string & Boolean true are all truthy conditions. But, they are all not equal.

Condition Validation in Javascript

I am writing a code that can validate if a condition is correct or not. A condition is an expression which results in true or false.
for example: X+Y>Z is a valid condition. X+Y is not.
And then, there can be complex conditions like ( X + Y > Z ) && ( X - Y < Z ) which is also correct. But ( X + Y > Z) && Z is not. These conditions can be as complex as then need to be. I used javascript eval() function to validate those conditions. Here is my code:
try{
var evaled=eval(expression);
if(evaled===true||evaled===false) alert("Valid.");
else alert("Invalid");
}catch(err){
// eval throws exception on syntax error
alert("Invalid. Syntax error.");
}
This works well for most of things but results valid in cases like this : ( X > Y) && Z which should be invalidated. Also, expression like this X + Z && (X>Z) is also showing valid. How can I make this validation correct.
eval will give you the result according to currently defined variables, and according to JavaScript boolean rules, in which all values are either truthy and falsy, and thus permissible arguments for &&, || and !. I.e. true || ("foo" + 1) is a valid expression in JavaScript, and will evaluate to true - as will "moo" && X < 3 if X is 1.
If you want to check things according to your own grammar, you can't use eval, and you will have to implement your own parser (possibly using a parser generator such as Jison)
EDIT: thanks for sharp eyes, Nateowami.
Try constructor === Boolean
console.log(eval("1+2").constructor === Boolean); //false
console.log(eval("1+2 > 1").constructor === Boolean); //true
console.log(eval("true").constructor === Boolean); //true
console.log(eval("false").constructor === Boolean); //true
To continue Amadan thoughts, in your conditions if Z is defined so it will return true and if X are higher then Y so ( X > Y ) && Z goona be true and X + Z gonna be true if X and Z are defined values.You can try Boolean(your expression) to see what it gonna be.
I finally found a solution to my question.
I created a way of signaturing all the conditions.
For all the operands in the condition, I placed x in the signature,
for all arithmetic operators, i placed an o,
for logical operators l,
for relational operators t,
for not operator n.
Then I kept replacing xox with x until there are no arithmetic operators, then I replaced all xtx with c, c is for condition. then I replaced nc and clc with c.
In the end, if the signature results in a single c, its a valid condition, else its not.
here is my code :
while(exp.indexOf("xox")!=-1||exp.indexOf("(x)")!=-1){
exp=exp.replace("xox","x");
exp=exp.replace("(x)", "x");
}
while(exp.indexOf("xtx")!=-1||exp.indexOf("(c)")!=-1){
exp=exp.replace("xtx","c");
exp=exp.replace("(c)", "c");
}
while(exp.indexOf("clc")!=-1||exp.indexOf("(c)")!=-1||exp.indexOf("nc")!=-1){
exp=exp.replace("clc","c");
exp=exp.replace("(c)", "c");
exp=exp.replace("nc", "c");
}
if(exp==c){
return true;
}else return false;

What is this JS syntax? Assignment in expression? (x != null && (y = x))

I'm working with this JS plugin, and I've encountered some syntax I've never seen before. I understand what it's doing, but I'm not sure why it works.
Here's an example of one instance of it:
settings.maxId != null && (params.max_id = settings.maxId);
Is this just taking advantage of conditionals and the single = ? Is this common syntax for JS?
In JavaScript the = operator is an expression and evaluates the assigned value. Because it is an expression it can be used anywhere an expression is allowed even though it causes a side-effect.
Thus:
settings.maxId != null && (params.max_id = settings.maxId)
Means: If settings.maxId is not null then (and only then, since && is short circuiting) evaluate the right-expression (params.max_id = settings.maxId) which in turn causes the value of settings.maxId to be assigned to params.max_id.
This is much more clearly written as:
if (settings.maxId != null) {
params.max_id = settings.maxId
}
Happy coding.
The && operator is known as "boolean AND". Typically, you'd see it in an if statement:
if (x == true && y == false) {
but that's not a restriction. You may use it in any valid expression to "combine" the boolean values of its operands into a single boolean result, according to the logical "AND" operation:
var z = (x == true && y == false);
// z is now true or false, accordingly
One of the lovely things about && is that it "short circuits". In false && true, because the first operand is false the entire expression may only evaluate to false, so the second operand is not even evaluated.
Let's check that again:
var z = (false && foo());
// z is now false
In this statement, the function foo is never even called! It doesn't have to be, for the program to know that z will be false.
This is more than an optimisation — you can rely on it.
Some silly people use this technique to rewrite conditional statements:
if (x == 0) {
foo();
}
into hard-to-read single expressions:
(x == 0) && foo();
Now, consider that assignment can be an expression just like a function call:
var a = (b = c);
Or:
var a = (b = foo());
And add in a conditional via the above technique:
var a = ((x == 0) && (b = foo()));
Now the entire expression b = foo() won't be evaluated at all if x is not 0, because of short circuiting.
We don't even need to do anything with the result of the && operation, and if we don't store it to a you're left with just:
(x == 0) && (b = foo());
which is a statement that'll assign b to the value of foo() only if x is 0.
Avoid it. It's hard to read. Just use an if statement.
this statement will assign params.max_id = settings.maxId only if settings.maxId != null due to the fact that && is a short-circuit logic operator
this behaviour is due to the fact that javascript will evaluate the condition until it's necessary. thus, if first condition is false and the second is in AND there's no need to check further

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