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function a() { return (1 == 1 == 1); }
function b() { return ("1" == "1" == "1"); }
function c() { return ("a" == "a" == "a"); }

I tested the above code in Chrome's console and for some reason, a() returns true, b() returns true, and c() returns false.

Why is this so?

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marked as duplicate by Niklas B., chue x, Athari, johnchen902, Jeremy Banks May 11 '14 at 3:05

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

Hint: X == Y == Z is evaluated as ((X == Y) == Z). –  Blackhole May 9 '14 at 9:51
Strangely, true == "1" evaluates to true. –  Codor May 9 '14 at 9:53
Related: Why does (0 < 5 < 3) return true? –  Felix Kling May 9 '14 at 9:57
@Cupcake: In good faith, I think the main headscratcher here is that an equality that appears to be true mathematically is actually false as far as JS is concerned, not that e.g. true == 1 is true. In other words, the aha moment is not realizing that the types play a part but rather that all of these are comparing something to true. I 'm sure there's a dupe of this somewhere, but IMO it's not one of those you offer. –  Jon May 9 '14 at 12:45

6 Answers 6

up vote 178 down vote accepted

Because you are comparing the (boolean) result of the first equality with the (non-boolean) third value.

In code, 1 == 1 == 1 is equivalent to (1 == 1) == 1 is equivalent to true == 1.

This means the three methods can be written more simply as:

function a() { return (true == 1); }
function b() { return (true == "1"); }
function c() { return (true == "a"); }

These comparisons work according to these rules (emphasis mine):

If the two operands are not of the same type, JavaScript converts the operands, then applies strict comparison. If either operand is a number or a boolean, the operands are converted to numbers if possible; else if either operand is a string, the string operand is converted to a number if possible. If both operands are objects, then JavaScript compares internal references which are equal when operands refer to the same object in memory.

So what happens in c is that "a" is converted to a number (giving NaN) and the result is strictly compared to true converted to a number (giving 1).

Since 1 === NaN is false, the third function returns false. It's very easy to see why the first two functions will return true.

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It's also worth mentioning that using strict equal (===) operator will prevent this unexpected behaviour for "1" –  Konrad Gadzina May 9 '14 at 10:16
@KonradGadzina: Strict equals will make all three functions return false. –  Jon May 9 '14 at 10:18
You're right. I've seen so many true in here that I forgot about that. ^^ –  Konrad Gadzina May 9 '14 at 10:20
@Jon: So what happens in c is that "a" is converted to a number (giving NaN) neither operand is a number. I think the conversion ends up with "true" == "a" rather than 1 == NaN. –  Flater May 9 '14 at 12:57
@Flater: No. The passage I have quoted above is very clear on what exactly happens ("if either operand is a number or a boolean" -- the left hand side operand is boolean). It's also very easy to see that your assertion is wrong: 1 == 1 == "true" => false. –  Jon May 9 '14 at 13:02

Because 1 == true

But "a" != true

So basically what happens is that

1 == 1, "1" == "1" and "a" == "a" are all evaluated to be true and then compared to the next value.

The string "1" is converted to a number (1) prior to being compared to true and is thus also considered to be equal to true.

Now, the "WHY?!?!" question is explained by the fact that Javascript has its roots in the C-family of languages. In which any number, other than 0 is considered to be a valid true boolean. :-/

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JavaScript for sure does not have its roots in the C-family of languages. It has its roots in LISP dialects such as Scheme, and was inspired by Self as well. It only uses the syntax of C, but not its semantics. IMHO this is one of the most widespread and quite wrong misunderstandings of JavaScript. To underline this, please also have a look at Douglas Crockford's article JavaScript: The World's Most Misunderstood Programming Language. –  Golo Roden May 9 '14 at 19:04
@GoloRoden: Don't be silly. If JavaScript didn't have C's semantics, a number of classic C semantical bugs such as if (x = 5) would not exist in JS... but they do, exactly as in C. IT certainly doesn't have all of C's semantics, but it behaves a lot more like C than like any Lisp. –  Mason Wheeler May 9 '14 at 22:25
@MasonWheeler assignments in conditions is NOT a bug or defect. –  Miles Rout May 10 '14 at 3:32
@MilesRoul: Try telling that to... well... everyone who's ever been bitten by it. –  Mason Wheeler May 10 '14 at 5:06
@funkybro Being a pro doesn't mean accidents can't happen. I have been programming C for over 10 years and lately I found myself forgetting the break; in a C switch statement... –  glglgl May 10 '14 at 9:41

Because 1 and "1" are both converted to true, as numbers. This is not the case with "a". Therefore:

("1" == "1" == "1") 

evaluates to

(("1" == "1") == "1") 

which evaluates to

(true == "1")


("1" == 1 == "1") 

is also true, or any combination thereof. In fact, any non-zero number when converted to a boolean is true.

Whereas, "a" does not evaluate to true.

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It's because JavaScript is a weakly typed language. This means that it is not expressive enough to talk about types, and in fact implicitly coerces values to belong in types to which they have no semantic relation. So, (1 == 1) == 1 evaluates to true because (1 == 1) correctly evaluates to true, so that JavaScript evaluates (true) = 1. In particular, it is turning 1 to a boolean (or true to a number -- I forget which, but the result is effectively the same).

The point is that JavaScript is turning one type of value into another type of value behind your back.

Your question shows why this is a problem: ('a' == 'a') == 'a' is false, because ('a' == 'a') is true, and JavaScript ends up comparing (true) == 'a'. Since there is just no sensible way to turn a Boolean into a letter (or a letter into a boolean), that statement is false. Of course, that breaks referential transparency for (==).

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Boolean handled as bits, each bit stands for true or false ( 1 for true, 0 for false )

so that 1 stands for true, and 0 stand for false

and 1 == 1 == 1 will be like (1 == 1) == 1, true == 1, true

while 'a' == 'a' == 'a' will be ('a' == 'a') == 'a', true == 'a', false

BONUS: 0 == 1 == 0, 1 == 0 == 0 and 0 == 0 == 1 returns true

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It's true that (1 == 1) == 1. Then it will be true == 1, but not in a == a == a.

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