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Consider empty JavaScript array:

var a = [];
alert(a == false); // shows true
alert(!a); // shows false!

How to explain this? What are the rules?

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1  
1  
Thanks for pointing. But not exactly, I ask for generic rules. –  Evgenyt Jan 7 '11 at 14:35
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When it comes to the loose == operator, the rules aren't so generic. You should read through the Abstract Equality Comparison Algorithm referenced by this answer. –  user113716 Jan 7 '11 at 14:39
    
Or, if you want to keep things simple, just avoid type coercion altogether. There may be some good use cases for coercion (==), but as a general rule, you can just avoid it (===). And then, you can build on that rule, and add exceptions where you do want to coerce. –  Šime Vidas Jan 7 '11 at 17:18
    
see also: stackoverflow.com/questions/24318654 –  dreftymac Jun 20 '14 at 1:44

5 Answers 5

up vote 10 down vote accepted

From http://forums.whirlpool.net.au/archive/966449:

a == false:

In this case, the type of the left-hand side is object, the type of the right-hand side is boolean. Javascript first converts the boolean to a number, yielding 0. Then it converts the object to a "primitive", yielding the empty string. Next it compares the empty string to 0. The empty string is converted to a number, yielding 0, which is numerically equal to the 0 on the right-hand side, so the result of the entire expression is true.

See §11.9.3 of the ECMAScript spec for all the gory details.

(!a):

In this case Javascript converts the object to the boolean true, then inverts it, resulting in false.

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+1 Good and correct answer (or reference to a correct answer I guess). –  user113716 Jan 7 '11 at 14:26
    
here's a direct link to the afore-mentioned ECMA spec: ecma-international.org/ecma-262/5.1/#sec-11.9.3 –  JKirchartz Feb 23 at 19:32

The ! operator checks whether its operand is "falsy".

The following are true:

  • !false
  • !0
  • !null
  • !NaN
  • !undefined
  • !""

The == operator checks for loose equality, which has nothing to do with falsiness.

Specifically, a == b will convert to operands to numbers, then compare the numbers.
Strings containing numbers convert to the numbers that they contain; booleans convert to 0 and 1.
Objects are converted by calling valueOf, if defined.

Thus, all of the following are true:

  • "1" == 1
  • "0" == false
  • "1" == true
  • "2" != true
  • "2" != false
  • ({ valueOf:function() { return 2; } }) == 2
  • ({ valueOf:function() { return 1; } }) == true
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+1 You beat me to it! –  Daniel Attfield Jan 7 '11 at 14:25
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How are ("2" != true), ("2" != false) both true? –  qwertymk Jan 7 '11 at 14:58
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@qwerty: The same way that 2 != 3 and 2 != 4 are both true –  SLaks Jan 7 '11 at 15:11
    
Oh because false == Number(0), true == Number(1) . Got it thanks –  qwertymk Jan 7 '11 at 15:12

The == operator when one of the operands if Boolean, type-converts the other to Number.

[] == 0;

Is equivalent to:

0 == 0;

You can see the complete details of The Abstract Equality Comparison Algorithm on the specification.

As you can see, an empty array object, when converted to Number, produces 0:

+[]; // 0
Number(0);

This is really because its toString method produces an empty string, for example:

[].toString(); // ""

+""; // 0
Number(""); // 0
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+1 Nice way to explain it, stepping through the type conversions it goes through. –  user113716 Jan 7 '11 at 14:32

When comparing an object to a primitive value via the == operator, the object coerces into an primitive value itself (number or string). In this case [] coerces into 0, then false coerces into 0:

[] == false
0 == false
0 == 0

which is true.

The ! operator coerces into boolean and then inverts the value. [] into boolean is true (like with any object). Then invert to become false

![]
!true
false
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Not sure if this answers the question, but there is a new library for getting around all of Javascript's Typecasting weirdnesses:

Typecast.js

In a sentence, Typecast solves all the simple problems, so you can focus on the big ones. Typecast fixes what's wrong with Javascript by creating a complete platform for strongly-typed variables in Javascript.

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