Ok, so I've read about this a number of times, but I'm yet to hear a clear, easy to understand (and memorable) way to learn the difference between:

if (x | y)


if (x || y)

..within the context of C#. Can anyone please help me learn this basic truth, and how C# specifically, treats them differently (because they seem to do the same thing). If the difference a given piece of code has between them is irrelevant, which should I default to as a best-practise?

11 Answers 11


|| is the logical-or operator. See here. It evaluates to true if at least one of the operands is true. You can only use it with boolean operands; it is an error to use it with integer operands.

// Example
var one = true || bar();   // result is true; bar() is never called
var two = true | bar();    // result is true; bar() is always called

| is the or operator. See here. If applied to boolean types, it evaluates to true if at least one of the operands is true. If applied to integer types, it evaluates to another number. This number has each of its bits set to 1 if at least one of the operands has a corresponding bit set.

// Example
var a = 0x10;
var b = 0x01;
var c = a | b;     // 0x11 == 17
var d = a || b;    // Compile error; can't apply || to integers
var e = 0x11 == c; // True

For boolean operands, a || b is identical to a | b, with the single exception that b is not evaluated if a is true. For this reason, || is said to be "short-circuiting".

If the difference a given piece of code has between them is irrelevant, which should I default to as a best-practise?

As noted, the difference isn't irrelevant, so this question is partially moot. As for a "best practice", there isn't one: you simply use whichever operator is the correct one to use. In general, people favor || over | for boolean operands since you can be sure it won't produce unnecessary side effects.

  • Imho, the best practice is definitely to use || and && (and avoid | and &) -- because they are used over 99% of the time, that's by far the standard approach. Writing non-standard code makes errors more likely. -- I would argue that even if you needed both operand to be always evaluated, you should avoid | and & and implement it in some other way.
    – Ellis
    Nov 26, 2018 at 9:00

When used with boolean operands the | operator is a logical operator just as ||, but the difference is that the || operator does short circuit evaluation and the | operator does not.

This means that the second operand is always evaluated using the | operator, but using the || operator the second operand is only evaluated if the first operand evaluates to false.

The result of the expression is always the same for both operatrors, but if the evaluation of the second operand causes something else to change, that is only guaranteed to happen if you use the | operator.


int a = 0;
int b = 0;

bool x = (a == 0 || ++b != 0);

// here b is still 0, as the "++b != 0" operand was not evaluated

bool y = (a == 0 | ++b != 0);

// here b is 1, as the "++b != 0" operand was evaluated.

The short-circuit evaluation of the || operator can be used to write shorter code, as the second operand only is evaluated if the first operand is true. Instead of writing like this:

if (str == null) {
   Console.WriteLine("String has to be at least three characters.");
} else {
   if (str.Length < 3) {
      Console.WriteLine("String has to be at least three characters.");
   } else{

You can write like this:

if (str == null || str.Length < 3) {
   Console.WriteLine("String has to be at least three characters.");
} else{

The second operand is only evaluated if the first is false, so you know that you can safely use the string reference in the second operand as it can not be null if the second operand is evaluated.

In most cases you would want to use the || operator rather than the | operator. If the first operand is false, there is no need to evaluate the second operand to get the result. Also, a lot of people (evidently) doesn't know that you can use the | operator with boolean operands, so they would get confused when seeing it used that way in the code.

  • 4
    Wish I could give +10, this is the most relevent answer relating to C#. Whilst all the others are technically correct, they ignore the fact that the question relates to boolean logic in C#.
    – Robin Day
    Mar 26, 2009 at 7:23
  • Shouldn't that be "str != null"?
    – Les
    Mar 26, 2009 at 12:44
  • No, that part is correct, but the first part seems wrong to me: int a = 0; int b = 0; bool x = (a != 0 || ++b != 0); // here b is still 0, as the "++b != 0" operand was not evaluated But a == 0, so the first statement gets evaluated to false and so the 2nd part is evaluated.
    – Davy8
    Mar 26, 2009 at 14:58
  • @Davy8: Yes, you are right, the example was wrong. I corrected that. (Regardning code formatting; there is no formatting at all in comments.)
    – Guffa
    Mar 26, 2009 at 16:54

They are not the same. One is bitwise OR and one is logical OR.

X || Y , is a logical or, means the same as "X or Y" and applies to bool values. It is used in conditionals or tests. X and Y in that case can be replaced with any expression that evaluates to a bool. Example:

if (File.Exists("List.txt")  ||  x > y )  { ..}

The clause evaluates to true if either of the two conditions is true. If the first condition is true (if the file exists), then the second condition need not and will not be evaluated.

The single pipe ( | ) is a bitwise OR. To know what this means you must be understand how numbers are stored in the computer. Suppose you have a 16-bit quantity (Int16) that holds the value 15. It is actually stored as 0x000F (in hex) which is the same as 0000 0000 0000 1111 in binary. The bitwise OR takes two quantities and OR's each pair of corresponding bits together, so that if the bit is 1 in either quantity, it is 1 in the result. Therefore, if a = 0101 0101 0101 0101 (which evaluates to 0x5555 in hex) and b = 1010 1010 1010 1010 (which is 0xAAAA), then a | b = 1111 1111 1111 1111 = 0xFFFF.

You can use bitwise OR's (single pipe) in C# to test if one or more of a particular set of bits is turned on. You might do this if you have, let's say, 12 booleans or binary values to test for, and they are all independent. Suppose you have a student database. A set of independent booleans might be things like, male/female, home/on-campus, current/not-current, enrolled/not-enrolled, etc. Rather than store a boolean field for each one of those values, you could store just a single bit for each one. The male/female might be bit 1. enrolled/not might be bit 2.

Then you can use

 if ((bitfield | 0x0001) == 0x0001) { ... }

as a test to see if no bits are turned on, except the "student is male" bit, which is ignored. Huh? Well, the bitwise OR returns a 1 for each bit that is on in either number. If the result of the bitwise OR above = 0x0001, that means there are no bits turned on in the bitfield, except maybe the first bit (0x0001), but you can't tell for sure whether the first bit is on, because it it is masked.

There is a corresponding && and &, which is logical AND and bitwise AND. They have the analogous behavior.

You can use

 if ((bitfield &  0x0001) == 0x0001) { ... }

to see if the first bit is turned on in a bitfield.

EDIT: I can't believe I got voted down for this!

  • | has another meaning in C#. That could be why.
    – jalf
    Mar 26, 2009 at 6:33
  • 1
    It's more surprising that you got voted up, as the answer is totally irrelevant to the question...
    – Guffa
    Mar 26, 2009 at 7:52

Good answers, but let me add that the right-side expressions for || is not evaluated if the left-side expression is true. Keep this in mind for cases where the evaluation terms are a) performance-intensive or b) produce side effects (rare).


Unlike what most of the answers so far say, the meaning is not exactly the same as in C++.

For any two expressions A and B evaluating to booleans, A || B and A | B do almost the same thing.

A | B evaluates both A and B, and if one of them evaluates to true, the result is true.

A || B does almost the same thing, except it evaluates A first, and then only evaluates B if it is necessary. Since the entire expression is true if either A or B is true, B doesn't need to be tested at all if A is true. So || short-circuits, and skips evaluating the second operand when possible, where the | operator will always evaluate both.

The | operator isn't often used, and often it won't make a difference. The only common case I can think of where it'd make a difference is this:

if ( foo != null || foo.DoStuff()){ // assuming DoStuff() returns a bool


This works because the DoStuff() member function is never called if the left test fails. That is, if foo is null, we don't call DoStuff on it. (which would give us a NullReferenceException).

If we'd used the | operator, DoStuff() would be called regardless of whether foo was null or not.

On integers, only the | operator is defined, and is a bitwise OR, as the other answers describe. The || operator isn't defined for integer types though, so it's hard to get them mixed up in C#.

  • The code you wrote is incorrect. The correct form is: if (foo == null || foo.DoStuff()). So, if foo == null, the expression returns true without evaluating further; otherwise foo is not null so the first part returns false and the second part is evaluated, and it can be since in this case foo is not null. Jun 30, 2016 at 7:37

| is a bitwise OR operator (numeric, integer). it works by converting the numbers into binary and doing an OR for each of the corresponding digits. then again, numbers are already represented in binary in the computer, so no such conversion really takes place at runtime ;)

|| is a logical OR operator (boolean). it only works on true and false values.


The following would work in C/C++ because it has no first class support for booleans, it treats every expression with "on" bit on them as true otherwise false. In fact, the following code would not work in C# or Java if x and y are of numeric types.

if (x | y) 

So the explicit version of above code is:

if ( (x | y) != 0)

In C, any expression which would have an "On" bit on them, results to true

int i = 8;

if (i) // valid in C, results to true

int joy = -10;

if (joy) // vaild in C, results to true

Now, back to C#

If x and y are of numeric type, your code: if (x | y) will not work. Have you tried compiling it? It will not work

But for your code, which I could assume x and y are of boolean types, so it will work, so the difference between | and || for boolean types, the || is short-circuited, the | is not. The output of the following:

    static void Main()

        if (x | y)


        if (x || y)


    static bool x
        get { Console.Write("Hey");  return true; }

    static bool y
        get { Console.Write("Jude"); return false; }



Jude won't be printed twice, the || is a boolean operator, many C-derived languages boolean operators are short-circuited, boolean expressions are more performant if they are short-circuited.

As for layman terms, when you say short-circuited, for example in || (or operator), if the first expression is already true, no need to evaluate the second expression. Example: if (answer == 'y' || answer == 'Y'), if the user press small y, the program don't need to evaluate the second expression(answer == 'Y'). That's short-circuit.

On my sample code above, X is true, so the Y on || operator won't be evaluated further, hence no second "Jude" output.

Don't use this kind of code in C# even if X and Y are of boolean types: if (x | y). Not performant.


The first, bitwise operator works on two numerical values and results in a third one.

If you have binary variables

a = 0001001b;
b = 1000010b;


a | b == 1001011b;

That is, a bit in the result is 1 if it is also 1 in either of the operands. (My example uses 8-bit numbers for clarity's sake)

The "double pipe" ||, is a logical OR operator that takes two boolean values and results in a third.


Without delving into the details in any way, shape, or form, here's a real layman's version.

Think of "|" as a straight "or" in english; think of "||" as "or else" in english.

Similarly think of "&" as "and" in english; think of "&&" as "and also" in english.

If you read an expression to yourself using these terms, they often make a lot more sense.


Strongly recommend to read this article from Dotnet Mob

For OR logical operation if any of it's operand is evaluated to true then whole expression is evaluated to true

this is what || Operator does - it skips the remaining evaluation when it found a true. While | Operator evaluate it's complete operands to asses the value of whole expression.

if(true||Condition1())//it skip Condition1()'s evaluation
//code inside will be executed
if(true|Condition1())//evaluates Condition1(), but actually no need for that
//code inside will be executed

It is better to use Short Circuited version of Logical Operator Whether it is OR(||) or AND(&&) Operator.

Consider the following Code Snippet

int i=0;
if(false||(++i<10))//Now i=1
//Some Operations
if(true||(++i<10))//i remains same, ie 1

This effect is called side effect, actually seen in right side of expression in short circuited logical operators

Reference : Short-circuit Evaluation in C#


Although it's already been said and answered correctly I thought I'd add a real layman's answer since alot of the time that's what I feel like on this site :). Plus I'll add the example of & vs. && since it's the same concept

| vs ||

Basically you tend to use the || when you only wnat to evaluate the second part IF the first part it FALSE. So this:

if (func1() || func2()) {func3();}

is the same as

if (func1())
    if (func2()) {func3();}

This may be a way to save processing time. If func2() took a long time to process, you wouldn't want to do it if func1() was already true.

& vs &&

In the case of & vs. && it's a similar situation where you only evaluate the second part IF the first part is TRUE. For example this:

if (func1() && func2()) {func3();}

is the same as

if (func1())
    if (func2()) {func3();}}

This can be necessary since func2() may depend on func1() first being true. If you used & and func1() evaluated to false, & would run func2() anyways, which could cause a runtime error.

Jeff the Layman

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