# Using a bitmask in C#

Let's say I have the following

int susan = 2; //0010
int bob = 4; //0100
int karen = 8; //1000


and I pass 10 (8 + 2) as a parameter to a method and I want to decode this to mean susan and karen

I know that 10 is 1010

but how can I do some logic to see if a specific bit is checked as in

if (condition_for_karen) // How to quickly check whether effective karen bit is 1


Right now all i can think of is to check whether the number i passed is

14 // 1110
12 // 1100
10 // 1010
8 //  1000


When I have a larger number of actual bits in my real world scenario, this seems impractical, what is a better way using a mask to just check whether or not I meet the condition for just karen?

I can think of shifting left then back then shifting right then back to clear bits other than the one I'm interested in, but this also seems overly complex.

• Just had to comment on usage. If you are performing bit operations, you should only use bit manipulating operators. i.e., think of it as (8 | 2), not (8 + 2). Commented Jul 16, 2010 at 2:37

The traditional way to do this is to use the Flags attribute on an enum:

[Flags]
public enum Names
{
None = 0,
Susan = 1,
Bob = 2,
Karen = 4
}


Then you'd check for a particular name as follows:

Names names = Names.Susan | Names.Bob;

// evaluates to true
bool susanIsIncluded = (names & Names.Susan) != Names.None;

// evaluates to false
bool karenIsIncluded = (names & Names.Karen) != Names.None;


Logical bitwise combinations can be tough to remember, so I make life easier on myself with a FlagsHelper class*:

// The casts to object in the below code are an unfortunate necessity due to
// C#'s restriction against a where T : Enum constraint. (There are ways around
// this, but they're outside the scope of this simple illustration.)
public static class FlagsHelper
{
public static bool IsSet<T>(T flags, T flag) where T : struct
{
int flagsValue = (int)(object)flags;
int flagValue = (int)(object)flag;

return (flagsValue & flagValue) != 0;
}

public static void Set<T>(ref T flags, T flag) where T : struct
{
int flagsValue = (int)(object)flags;
int flagValue = (int)(object)flag;

flags = (T)(object)(flagsValue | flagValue);
}

public static void Unset<T>(ref T flags, T flag) where T : struct
{
int flagsValue = (int)(object)flags;
int flagValue = (int)(object)flag;

flags = (T)(object)(flagsValue & (~flagValue));
}
}


This would allow me to rewrite the above code as:

Names names = Names.Susan | Names.Bob;

bool susanIsIncluded = FlagsHelper.IsSet(names, Names.Susan);

bool karenIsIncluded = FlagsHelper.IsSet(names, Names.Karen);


Note I could also add Karen to the set by doing this:

FlagsHelper.Set(ref names, Names.Karen);


And I could remove Susan in a similar way:

FlagsHelper.Unset(ref names, Names.Susan);


*As Porges pointed out, an equivalent of the IsSet method above already exists in .NET 4.0: Enum.HasFlag. The Set and Unset methods don't appear to have equivalents, though; so I'd still say this class has some merit.

Note: Using enums is just the conventional way of tackling this problem. You can totally translate all of the above code to use ints instead and it'll work just as well.

• +1 for being the first code to actually work. You can also do (names & Names.Susan) == Names.Susan, which doesn't require a None. Commented Jul 16, 2010 at 2:28
• @Matthew: Oh yeah, good point. I guess I just get in the habit of always defining a None value for all my enums, as I find it ends up being convenient in many scenarios. Commented Jul 16, 2010 at 2:37
• This is built in, you don't need your helper methods... var susanIsIncluded = names.HasFlag(Names.Susan); Commented Jul 16, 2010 at 3:00
• @Porges: Wow, no idea how I missed that... thanks for pointing that out! (Looks like it's only available as of .NET 4.0, though... also, there's no equivalent for the Set method. So, I'd say the helper methods are at least not totally worthless.) Commented Jul 16, 2010 at 3:29
• Note, that using names.HasFlag(Names.Susan) is like (names & Names.Susan) == Names.Susan which is not always like (names & Names.Susan) != Names.None. For example if you'll check if names.HasFlag(Names.none) or names.HasFlag(Names.Susan|Names.Karen) Commented Jul 12, 2012 at 4:33

Easy Way:

[Flags]
public enum MyFlags {
None = 0,
Susan = 1,
Alice = 2,
Bob = 4,
Eve = 8
}


To set the flags use logical "or" operator |:

MyFlags f = new MyFlags();
f = MyFlags.Alice | MyFlags.Bob;


And to check if a flag is included use HasFlag:

if(f.HasFlag(MyFlags.Alice)) { /* true */}
if(f.HasFlag(MyFlags.Eve)) { /* false */}

• simple example of using the HasFlag() and the [Flags] was not provided in other answers. Commented Jan 15, 2020 at 17:07
• Because the other answers are from 10 years ago, when there was no HasFlag() Commented Sep 29, 2022 at 21:42
• In the current release, there is no need for new MyFlags(). All that's required is MyFlags f = MyFlags.Alice | MyFlags.Bob Commented Jan 18, 2023 at 18:20
if ( ( param & karen ) == karen )
{
// Do stuff
}


The bitwise 'and' will mask out everything except the bit that "represents" Karen. As long as each person is represented by a single bit position, you could check multiple people with a simple:

if ( ( param & karen ) == karen )
{
// Do Karen's stuff
}
if ( ( param & bob ) == bob )
// Do Bob's stuff
}


I have included an example here which demonstrates how you might store the mask in a database column as an int, and how you would reinstate the mask later on:

public enum DaysBitMask { Mon=0, Tues=1, Wed=2, Thu = 4, Fri = 8, Sat = 16, Sun = 32 }

bool test;
test = true;
test = true;
test = true;

// Store the value

// Reinstate the mask and re-test

test = true;
test = true;
test = true;

• I did something similar but when defining the mask I did Mon=Math.Power(2, 0), Tues=Math.Pow(2, 1), Wed=Math.Pow(2, 2), etc. so the bit position is a little more obvious for those of use who aren't used to binary to decimal conversion. Blindy's is good too since it turns into a boolean result by shifting the masked bit. Commented Jan 26, 2017 at 16:06

To combine bitmasks you want to use bitwise-or. In the trivial case where every value you combine has exactly 1 bit on (like your example), it's equivalent to adding them. If you have overlapping bits however, or'ing them handles the case gracefully.

if(val & (1<<1)) SusanIsOn();

• Correct you cannot use an integer as a boolean, however you can check what the integer is instead... if((val & (1<<1) > 0)) SusanIsOn();  if((val & (1<<2) > 0)) BobIsOn(); if((val & (1<<3) > 0)) KarenIsOn(); Commented Aug 25, 2022 at 13:34