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I am (still) learning C# - and I thought I understood the difference between & & && as well as | & ||...

However, after just reading another guide, it is clear I don't get it.

I wrote a little truth table and as I thought, they return the same. From what I have read, using double symbols sounds like a superior solution, but I am a little confused on the difference and was wondering if anyone could please explain/give an example why/when you would use one instead of the other - I tried reading the MSDN example, but it left me more confused than when I started!

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(And, if anyone can come up with a better title, feel free to change it... very awkward to write one!)

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is this about bitwise or conditional operation? –  Fredou Jan 29 '11 at 17:19
How about bitwise vs logical operators? –  Ray Jan 29 '11 at 17:20
It is purely about difference between &&/& and ||/| (which I thought were called, and/bitwise and, and, or/bitwise or), I am still learning and sorry if I use the wrong terminology. –  Wil Jan 29 '11 at 17:22
@Wil, only you know what you want, do you mean bitwise operation: or conditional operation: –  Fredou Jan 29 '11 at 17:27
I don't understand what is hard about understanding what I want!.... two questions - what is the difference between &/&&, then what is the difference between |/|| - it doesn't matter now, there are many good answers and I will pick one shortly. –  Wil Jan 29 '11 at 17:29

7 Answers 7

up vote 6 down vote accepted

& can be used in two different ways: bitwise "and" and logical "and"

The difference between logical & and && is only that in case you use &, the second expression is also evaluated, even if the first expression was already false. This may (for example) be interesting if you want to initialize two variables in the loop:

if ((first = (i == 7)) & (second = (j == 10))) { //do something }

if you use this syntax, first and second will always have a value, if you use

if ((first = (i == 7)) && (second = (j == 10))) { //do something }

it may be that only first has a value after the evaluation.

It is the same for | and ||: In case you use |, both of the expressions are always evaluated, if you use || it may be that only the first expression is evaluated, which would be the case if the first expression is true.

In contrast, in other applications && can be the better choice. If myNumber is of type int?, you could have something like

if (myNumber != null && myNumber.Value == 7)

and this would only evaluate myNumber != null at first, and it would only evaluate the second expression, if the null check was okay.

if (myNumber != null & myNumber.Value == 7)

would finish with a NullPointerException during the evaluation of the second expression, if myNumber was null. Therefore, you would use && in this context.

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+1 for a good answer - my comment on this would be however - if you write code that others may have to maintain - do not rely on this as a tool to ensure that side affects happen. Write the code out as explicitly as you can. It will make life easier for anyone who is debugging the code later. –  Neil Jan 29 '11 at 18:12
Thanks for the hint, u are probably right. I will consider that in the future. –  Sören Jan 29 '11 at 18:28
Actually, calling Value on a null nullable results in an InvalidOperationException. –  phoog Jan 30 '11 at 0:53

you should read this Short-circuit evaluation.

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What's that got to do with the question? The question is about bitwise operators. –  Oded Jan 29 '11 at 17:15
bitwise operators don't short circuit –  kelloti Jan 29 '11 at 17:16
+1 - I did not know that you could use | and & on booleans to avoid short-circuit evaluation. I will never use that feature in code, but it is good to know. –  Neil Jan 29 '11 at 17:17
if you compare the title and the body of the question, you will notice that they don't match at all –  Fredou Jan 29 '11 at 17:18
@Oded, it has everything to do with the question –  kelloti Jan 29 '11 at 17:24

&& and || are used with booleans. Your output makes sense when using these.

& and | are bitwise operator, meaning they are applied to the operands bit by bit. For example

110010010 |
001000100 =

using the same table of your program's output but a bit a time. They are mainly used with integers, not booleans.

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This is not true. In C# you can use & and | with boolean expressions, see my answer. –  Matt Greer Jan 29 '11 at 17:18
Did you read "mainly"? –  Federico Culloca Jan 29 '11 at 17:19

The difference will be less apparent in booleans; bitwise operators are primarily for numbers, whereas logical operators are primarily for booleans. In a bitwise operation (e.g., &), the operation is performed for each bit. In a logical operation (e.g., &&), the operation is performed for the entire result.

For example, the bitwise & of 11 (1011 in binary) and 2 (10 in binary) would be computed as such:

& 0010

which is 2.

There is an additional consideration in how the two types of operators are executed. When using a bitwise operator, the expressions on either side of the operator are first executed, and then the operation is performed. When using a logical operator, however, the expression on the left side of the operator is performed first, and the right side may be neglected if it will not change the result.

For example, when I execute (false expression) && (true expression), the true expression is never evaluated. Likewise with (true expression) || (false expression). This is referred to as short-circuit evaluation

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+1 ok - Many thanks, I understand that! –  Wil Jan 29 '11 at 17:35

Bitwise operations are used on integers. You must view the entire integer as 32 individual bits. Most .NET developers rarely use bitwise operations. Check out wikipedia for more clarification.

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I think you are getting tripped up because C# has overloaded | and &. Used with numeric primitives then they are bitwise operations. Used with booleans then they are just like || and && except they don't short circuit.

For example

bool Foo() {
    return false;

bool Bar() {
     return true;

if(Foo() & Bar()) {
     // do something

// versus

if(Foo() && Bar()) {
      // do something 2

In the above example, the first boolean expression will execute both Foo() and Bar(), but in the second one only Foo() will execute.

IMO this is one of the worst decisions the C# team has made. It leads to confusing and occasionally subtle errors.

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Agreed regarding poor design. Nothing jumps out loud enough yellow "I'm eager" vs "I'm short-circuit!" Maintenance nightmare. –  Ray Jan 29 '11 at 17:22
Lazy evaluation is very useful. How else would you handle if (temp != null && temp.Value == 42)? –  Cameron MacFarland Jan 29 '11 at 17:22
Plus if Foo and Bar are required to be called because they have some sort of side effects that must be performed, consider refactoring them. –  Cameron MacFarland Jan 29 '11 at 17:26
+1 ok - the example you have written isn't that much different to the MSDN article, however you have explained it MUCH better, I couldn't understand why they had a method when I just wanted to understand the difference.... now I do understand! –  Wil Jan 29 '11 at 17:33
@Cameron: Lazy evaluation is great and as far as I know all languages support it. It's the odd choice of adding non short circuiting operators that I disagree with. Granted they are so obscure it's really a non issue, I've never seen them used (purposely) in real code. –  Matt Greer Jan 29 '11 at 17:35

When using booleans there is no difference. The difference becomes more noticable when writing

1 & 2 = 3

1 && 2 = Error // Not 'true' as I wrote before. It would be in C++, but not in C#.

The double operator is a logical operator. It will treat each side as a boolean and returns a boolean that tells you something about these values (operands).

The single operator is a bitwise operator. It takes all bits in each value, performs the boolean logic on those bits, and combines the resulting bits into a new value.

Because a boolean value contains only one bit, the result for boolean operands is the same when using single (bitwise) or double (logical) operator, but since you're (probably) doing some logical operations, it's logical to use the logical operator too. (no pun intended)

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1 && 2 would give a compile error, not return true... –  Thomas Levesque Jan 29 '11 at 17:16
Err 1 && 2 = Operator '&&' cannot be applied to operands of type 'int' and 'int' –  Cameron MacFarland Jan 29 '11 at 17:16
Yes, oops. C# is a little stricter. :) Other languages will treat the int as boolean, actually translating it to (1 != 0) && (2 != 0). Sorry about that little error. The point remains the same, though. :) –  GolezTrol Jan 29 '11 at 17:18
Well, C# > other languages then. :P –  Cameron MacFarland Jan 29 '11 at 17:29
It certainly is. :p (And not >> ) –  GolezTrol Jan 29 '11 at 17:43

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