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Consider this condition:

(true & true & false & false & true) == true //returns: false

As you can see, the bitwise AND behavior is exactly like logical AND's:

(true && true && false && false && true) == true //returns: false

I'm wondering why I should use logical operations when the bitwise operations do the same as the logical ones.

Note: Please don't answer that's because of performance issue because it's pretty much faster in Mozilla Firefox, see this jsPerf: http://jsperf.com/bitwise-logical-and

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in the second example, I think if the first value was false, the rest of the values are not evaluated, because the statement can`t be true. – dan Feb 14 '13 at 9:01
Your performance test is flawed. You only test with true and false value. The performance problem will kick in when you replace with real function. – nhahtdh Feb 14 '13 at 9:01
If memory serves, & keeps evaluating all the options while && stops at the first false, thus not evaluating the other conditions. – npinti Feb 14 '13 at 9:02
Your first snippet remains valid if you replace & with + or *. That doesn't mean + or * always do the same as the boolean &&. – georg Feb 14 '13 at 9:03
Bitwise operations on one bit are a bit too much ;) – Caspar Kleijne Feb 14 '13 at 9:04

10 Answers 10

up vote 17 down vote accepted

The most common use of short-circuit evaluations using logical operators isn't performance but avoiding errors. See this :

if (a && a.length)

You can't simply use & here.

Note that using & instead of && can't be done when you don't deal with booleans. For example & on 2 (01 in binary) and 4 (10 in binary) is 0.

Note also that, apart in if tests, && (just like ||) is also used because it returns one of the operands :

"a" & "b" => 0
"a" && "b" => "b"

More generally, using & in place of && is often possible. Just like omitting most ; in your javascript code. But it will force you to think more than necessary (or will bring you weird bugs from time to time).

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+1 For avoiding error. – nhahtdh Feb 14 '13 at 9:04
Lazy evaluation usually has a broader/different meaning than short-circuit evaluation. – phant0m Feb 14 '13 at 9:41
@phant0m short-circuit is more precise here, yes. Updated. – Denys Séguret Feb 14 '13 at 10:55

bitwise operations behavior the same?

No, it's not. Bitwise operators work on integer numbers, while the logical operators have stronlgy different semantics. Only when using pure booleans, the result may be similar.

  • Bitwise operators: Evalutate both operands, convert to 32-bit integer, operate on them, and return the number.
  • Logical operators: Evaluate the first operand, if it is truthy/falsy then evalutate and return second operand else return the first result. This is called Short-circuit evaluation

You already can see this difference in the type of the result:

(true & true & false & false & true) === 0
(true && true && false && false && true) === false
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+1 mainly for Short-circuit evaluation, but good answer! – Codesleuth Feb 14 '13 at 9:20

No they don't do the same. The differences are:

  1. Whether the operand types are converted
  2. Whether both operands are evaluated
  3. The return value
// sample functions 
function a() { console.log("a()"); return false; }
function b() { console.log("b()"); return true; }

&& (Logical AND)

  1. Checks the truthiness of operands
  2. Uses short-circuiting and may not evaluate the second operand
  3. Returns the last evaluated operand without type conversion
a() && b();
// LOG: "a()"
// RET: false

& (Bitwise AND)

  1. Temporarily converts the operands to their 32bit integer representation (if necessary)
  2. Evaluates both operands
  3. Returns a number
a() & b();
// LOG: "a()"
// LOG: "b()"
// RET: 0
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Good answer, +1 – Afshin Mehrabani Feb 14 '13 at 10:26
You probably meant "bitwise AND" instead of boolean. – phant0m Feb 14 '13 at 11:26

Because using && or & convey different intents.

The first says you're testing truthiness.

The second means your conjuring up some bit magic. In real code, you will be looking at variable1 & variable2. It will not be clear that you're in fact intending to test for truth (not truthiness). The reader of the code will probably be confused because it's not obvious why & was used.

Furthermore, the semantics are completely different when taking into account other values than bools and function calls, as pointed out by numerous other posts.

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You're right - they have adopted "truthy and falsy" (much to my personal, irrelevant chagrin ;-) ), perhaps you should link to an explanation (e.g. 11heavens.com/falsy-and-truthy-in-javascript). I'll remove my original comments. – Joris Timmermans Feb 14 '13 at 9:24
@MadKeithV Good idea, done. I'll remove my earlier comments as well, then. – phant0m Feb 14 '13 at 9:25

Almost everything is already said, but just for completeness' sake I want to take a look at the performance aspect:

JavaScript has a lot of difficult-to-remember rules on how to evaluate expressions. This includes a lot of casting when it comes to more complex comparisons. Arrays and Objects need to be converted by calling their toString() methods and are then cast to numbers. This is a huge performance hit.

Consider the following short circuit example when an array and an object are involved:

( false  & {}  & [] ) == true
( false && {} && [] ) == true

Performance DOES matter

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+1 Nice, but the benchmark doesn't say that performance matters. In this case, performance is mostly a red herring since the semantics are completely different. – phant0m Feb 14 '13 at 9:33
The semantic topic hast been covered by the other answers, I just wanted to point out the performance issue caused by type coercion. – Christoph Feb 14 '13 at 9:38
That's why you got an upvote from me :) – phant0m Feb 14 '13 at 9:42
  1. Boolean allows short-circuiting, which can be a performance boost or safety check.
  2. Non-boolean values used in the conditional. For example, if ( 1 & 2 ) will return false, whereas if ( 1 && 2 ) will return true.
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I think you didn't understand bitwise and ... try (2&3)?"true":"false" – Christoph Feb 14 '13 at 12:06
@Christoph Excuse me? (2&3) will be true because it's 0010 & 0011 which is 0010. (1&2), on the other hand, is 0001 & 0010 which is 0000. My point was that you may get unexpected results using non-boolean values if you use the bitwise &. – David Kiger Feb 14 '13 at 12:51
Okay, I revoke my statement, however the sentence Non-boolean values used in the conditional if will return false implied this is true for all cases, which is not. Maybe you want to rephrase it so it's more clear what you mean. – Christoph Feb 14 '13 at 12:58
@Christoph I think you missed the period after "conditional," but point taken. :) – David Kiger Feb 14 '13 at 13:01

You can't short-circuit bitwise operators. Also the bitwise operators can do much more, not just compute a boolean expression.

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There's a huge difference: logical operations are short circuited. It means that (true && true && false ) is the last thing to be executed. This allows powerful constructs, such as abstract factory model using var myFunc = mozilla.func || opera.sameFunc || webkit.evenOneMoreVariationOfTheSameConcept;

All subexpressions of bitwise operations have to be fully evaluated -- and btw. one only rarely needs to evaluate constant bitwise or logical expressions anyway.

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First condition have to convert first and sum bits then. But second will check logical and return value.

So First one will be slower than second one.

Run This Test: http://jsperf.com/bitwise-logical

on Chrome & IE Bitwise is slower but on FireFox logical is slower

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For boolean composition, it's not true that the first one will be slower. && adds branching, which is slow. – Denys Séguret Feb 14 '13 at 9:26
var bit1 = (((true & true) & (false & false)) & true), // return 0;
    bit2 = (((true && true) && (false && false)) && true); // return flase

alert(bit1 + ' is not ' + bit2);
share|improve this answer
In fact, 0 == false!! – Christoph Feb 14 '13 at 12:21
Sorry I didn't got you, exactly 0 is equal to false as @Christoph mentioned before. – Afshin Mehrabani Feb 14 '13 at 14:16
yes 0 == false, but in logic and not in returned value... – left Feb 14 '13 at 21:01

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