# Difference between | and || or & and && for comparison [duplicate]

Possible Duplicate:
A clear, layman’s explanation of the difference between | and || in c# ?

What is the difference between comparing with | and || or & and && in C# and Javascript?

Examples:

if(test == test1 | test1 == test2) or if(test == test1 || test1 == test2)
if(test == test1 & test1 == test2) or if(test == test1 && test1 == test2)
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which language? –  LeakyCode Aug 14 '09 at 17:50
What language are you referring to? –  Michael Todd Aug 14 '09 at 17:50
c# and javascript –  Josh Mein Aug 14 '09 at 17:50
couldnt find one but if you would help me find one I would appreciate it –  Josh Mein Aug 14 '09 at 17:52

## marked as duplicate by LeakyCode, David Basarab, Guffa, JB King, John SaundersAug 15 '09 at 2:09

in C (and other languages probably) a single | or & is a bitwise comparison.
The double || or && is a logical comparison.

In practice, since true is often equivalent to 1 and false is often equivalent to 0, the bitwise comparisons can sometimes be valid and return exactly the same result.

There was once a mission critical software component I ran a static code analyzer on and it pointed out that a bitwise comparison was being used where a logical comparison should have been. Since it was written in C and due to the arrangement of logical comparisons, the software worked just fine with either. Example:

if ( (altitide > 10000) & (knots > 100) )
...

nice try but its different copied below text from the MSDN website :

x && y

corresponds to the operation

x & y

except that if x is false, y is not evaluated (because the result of the AND operation is false no matter what the value of y may be). This is known as "short-circuit" evaluation.

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In C# (which is a strongly typed language,) using | and & on boolean variables will result in "logical or/and w/o short-circuiting." –  LeakyCode Aug 14 '09 at 17:56
Wow, really? That's interesting and I'll have to learn more about C#. I will update the answer to point to your comment. –  dustmachine Aug 14 '09 at 18:00
Mehrdad's comment is actually not unique to C# -- many (most?) strongly typed languages have this distinction. I know it's present in Java and C++, and I assume it's present in C, for example. –  Richard Dunlap Aug 14 '09 at 18:04
An example of C# behaviors is "if ((o != null) & (o.Property == 1))" will throw a NullReferenceException since it will still try to evaluate the value of o.Property even if o is null. "if ((o != null) && (o.Property == 1))" won't throw the exception, since it won't try to evaluate o.Property if o == null. –  STW Aug 14 '09 at 18:05
I meant to say "...will throw a NullReferenceException if o is null..." –  STW Aug 14 '09 at 18:06

& and | are binary operators while || and && are boolean.

The big difference:
(1 & 2) is 0, false
(1 && 2) is true

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(1 && 2) is not valid C# syntax. –  Chris Zwiryk Aug 14 '09 at 18:01
The original question didn't mention C#. It was edited after. –  David Aug 14 '09 at 18:03

The instance in which you're using a single character (i.e. | or &) is a bitwise comparison of the results. As long as your language evaluates these expressions to a binary value they should return the same results. As a best practice, however, you should use the logical operator as that's what you mean (I think).

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(Assuming C, C++, Java, JavaScript)

| and & are bitwise operators while || and && are logical operators. Usually you'd want to use || and && for if statements and loops and such (i.e. for your examples above). The bitwise operators are for setting and checking bits within bitmasks.

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& and | are bitwise operators that can operate on both integer and Boolean arguments, and && and || are logical operators that can operate only on Boolean arguments. In many languages, if both arguments are Boolean, the key difference is that the logical operators will perform short circuit evaluation and not evaluate the second argument if the first argument is enough to determine the answer (e.g. in the case of &&, if the first argument is false, the second argument is irrelevant).

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upvote for being first to mention the short circuiting of boolean operators –  David Aug 14 '09 at 18:01