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Is there a way to write binary literals in C#, like prefixing hexadecimal with 0x? 0b doesn't work.

If not, what is an easy way to do it? Some kind of string conversion?

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Use constants and give them proper names, then the fact that you have to write them out in decimal shouldn't matter. Personally I'd want to read if (a == MaskForModemIOEnabled) rather than if (a == 0b100101) –  Lasse V. Karlsen Jul 29 '10 at 11:44
Another note: If you found this post because you want a bit field, please consider the flags-attribute: msdn.microsoft.com/en-us/library/cc138362.aspx#sectionToggle0 –  toxvaerd Nov 9 '10 at 10:29
Both very good advice, except when defining said bitfields, where these named constant definitions can be easier to read and write with a binary literal. [Flags]enum Quantity { None=0, One=1, Some=0b10, Most=0b100, All=0b111 } –  brianary Dec 28 '10 at 23:43
For what it's worth, support for binary literals is planned for Roslyn. –  Joe White Apr 23 '14 at 12:21

11 Answers 11

up vote 78 down vote accepted

Only integer and hex directly, I'm afraid (ECMA 334v4): Integer literals Integer literals are used to write values of types int, uint, long, and ulong. Integer literals have two possible forms: decimal and hexadecimal.

To parse, you can use:

int i = Convert.ToInt32("01101101", 2);
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You mean there is actually something that Java is now more convenient in than C#? I'm shocked! –  G_H Oct 24 '11 at 14:44
Is that sarcasm? :p –  Jordan Dec 22 '11 at 15:18
@Jordan Is that sarcasm? –  Markus Johnsson Oct 13 '12 at 9:31
Maybe, maybe not. :p –  Jordan Oct 14 '12 at 0:54
As an update to this answer, with the latest cutting-edge modern information (July, 2014); C# 6.0 introduces binary literals. See my updated answer wayyyyyy down at the bottom... –  BTownTKD Jun 27 '14 at 12:03

Since the topic seems to have turned to declaring bit-based flag values in enums, I thought it would be worth pointing out a handy trick for this sort of thing. The left-shift operator (<<) will allow you to push a bit to a specific binary position. Combine that with the ability to declare enum values in terms of other values in the same class, and you have a very easy-to-read declarative syntax for bit flag enums.

enum Days
    None        = 0,
    Sunday      = 1,
    Monday      = 1 << 1,   // 2
    Tuesday     = 1 << 2,   // 4
    Wednesday   = 1 << 3,   // 8
    Thursday    = 1 << 4,   // 16
    Friday      = 1 << 5,   // etc.
    Saturday    = 1 << 6,
    Weekend     = Saturday | Sunday,
    Weekdays    = Monday | Tuesday | Wednesday | Thursday | Friday
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That is awesome! :D –  Jordan Dec 22 '11 at 15:18
Flags kick ass! –  El Ronnoco Feb 28 '12 at 15:36
I would just use 0x0, 0x1, ..., 0x8, 0x10... –  Cole Johnson Jun 22 '12 at 0:01
@ColeJohnson: Many developers prefer that. I'm not as good at converting hex in my head as some developers are, and sometimes it's best to cater to the lowest common denominator. –  StriplingWarrior Jun 22 '12 at 2:50
I think this is the most effective way since enums are built as constants. With the optional [Flags] attribute they can be used in bitwise operations (not directly related to the question, but particularly useful when describing binary literals). Another interesting possibility is to force the enum type as a built-in type (in this example, add ' : byte' after 'Days'); see built-in types in bit.ly/MKv42E –  caligari Jul 7 '12 at 18:37

You can always create quasi-literals, constants which contain the value you are after:

const int b001 = 1;
const int b010 = 2;
const int b011 = 3;
// etc ...
Debug.Assert((b001 | b010) == b011);

If you use them often then you can wrap them in a static class for re-use.

However, slightliy off-topic, if you have any semantics associated with the bits (known at compile time) I would suggest using an Enum instead:

enum Flags
    First = 0,
    Second = 1,
    Third = 2,
    SecondAndThird = 3
// later ...
Debug.Assert((Flags.Second | Flags.Third) == Flags.SecondAndThird);
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If you look at the language feature implementation status of the .NET Compiler Platform ("Roslyn") you can clearly see that in C# 6.0 this is a planned feature, so in the next release we can do it in the usual way.

Binary literal status

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Did it come to pass? Not all the features that have been blogged about actually made the Visual Studio 2015 release. –  Colonel Panic Nov 17 '14 at 10:32

Adding to @StriplingWarrior's answer about bit flags in enums, there's an easy convention you can use in hexadecimal for counting upwards through the bit shifts. Use the sequence 1-2-4-8, move one column to the left, and repeat.

enum Scenery
  Trees   = 0x001, // 000000000001
  Grass   = 0x002, // 000000000010
  Flowers = 0x004, // 000000000100
  Cactus  = 0x008, // 000000001000
  Birds   = 0x010, // 000000010000
  Bushes  = 0x020, // 000000100000
  Shrubs  = 0x040, // 000001000000
  Trails  = 0x080, // 000010000000
  Ferns   = 0x100, // 000100000000
  Rocks   = 0x200, // 001000000000
  Animals = 0x400, // 010000000000
  Moss    = 0x800, // 100000000000

Scan down starting with the right column and notice the pattern 1-2-4-8 (shift) 1-2-4-8 (shift) ...

To answer the original question, I second @Sahuagin's suggestion to use hexadecimal literals. If you're working with binary numbers often enough for this to be a concern, it's worth your while to get the hang of hexadecimal.

If you need to see binary numbers in source code, I suggest adding comments with binary literals like I have above.

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C# 6.0 will be including support for binary literals (and optional digit separators).

Usage will look something like this:

Int32 myValue = 0b0010_0110_0000_0011;

You can also find more information on the Roslyn homepage.

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I'm surprised no one has said this, but that is precisely what hexadecimal is for. If you want to think or type in binary, you use hexadecimal:

// bad
//int binary1 = 01101101b;
//int binary2 = 11001111b;
//int binary3 = 10011001b;

// good
int binary1 = 0x6D;
int binary2 = 0xCF;
int binary3 = 0x99;
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Yes, but the "bad" version provides an immediate visual indication of which bits are set. I can read immediately that 10101101 & 01010010 == 11111111, but I have to think about AD & 52 == FF (or, pull out a calculator). –  Dan Lugg May 14 '14 at 17:02
@DanLugg the problem is that dealing with pure binary VERY quickly turns into a nightmare. you only have to "pull out a calculator" because you don't have the hex to binary conversions memorized (actually, note that the result of the operation you mentioned is zero, not FF) (if you were skilled enough, you'd even know that A & 5 == 0 and D & 2 == 0 automatically). the binary notation might be ok if used sparingly, but reading lots of pure binary is pretty horrible, which is why we use hex in the first place. –  Sahuagin May 14 '14 at 21:10
lol @Sahuagin point taken (I &'d when I meant to |) but I digress. My point was, aside from my operator mistake, that vertically aligned binary literals are easy to read. In languages that support binary literals, I use them all them time and IMO it makes reasoning about the values easier. Certainly, that won't always be the case, but your "bad" example was the a case where I'd personally find them more readable. –  Dan Lugg May 15 '14 at 7:32
string sTable="static class BinaryTable\r\n{";
string stemp = "";
for (int i = 0; i < 256; i++)
stemp = System.Convert.ToString(i, 2);
while(stemp.Length<8) stemp = "0" + stemp;
sTable += "\tconst char nb" + stemp + "=" + i.ToString() + ";\r\n";
sTable += "}";
Clipboard.SetText ( sTable);

Using this, for 8bit binary, I use this to make a static class and it puts it into the clipboard.. Then it gets pasted into the project and added to the Using section, so anything with nb001010 is taken out of a table, at least static, but still... I use C# for a lot of PIC graphics coding and use 0b101010 a lot in Hi-Tech C

--sample from code outpt--

static class BinaryTable
{   const char nb00000000=0;
    const char nb00000001=1;
    const char nb00000010=2;
    const char nb00000011=3;
    const char nb00000100=4;
//etc, etc, etc, etc, etc, etc, etc, 

:-) NEAL

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Though the string parsing solution is the most popular, I don't like it, because parsing string can be a great performance hit in some situations.

When there is needed a kind of a bitfield or binary mask, I'd rather write it like

long bitMask = 1011001;

And later

int bit5 = BitField.GetBit(bitMask, 5);


bool flag5 = BitField.GetFlag(bitMask, 5);`

Where BitField class is

public static class BitField
    public static int GetBit(int bitField, int index)
        return (bitField / (int)Math.Pow(10, index)) % 10;

    public static bool GetFlag(int bitField, int index)
        return GetBit(bitField, index) == 1;
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Yuck. Why not just use enums? Using ont thousand to mean 1-0-0-0 is just asking for trouble. –  Clément Feb 26 '12 at 22:33

While not possible using a Literal, maybe a BitConverter can also be a solution?

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BitConverter gets a bit tricky because it is machine-endian; and on your standard Intel, that means little-endian. Most people have difficulty reading little-endian literals... –  Marc Gravell Feb 27 '09 at 13:33
Ouch, now i remember why I was always aware of but never used the BitConverter... –  Michael Stum Feb 27 '09 at 15:07
BitConverter has the field BitConverter.IsLittleEndian, which you can use to test (and reverse a buffer) if the host machine not little endian. –  foxy Jul 19 '11 at 21:12

Basically, I think the answer is NO, there is no easy way. Use decimal or hexadecimal constants - they are simple and clear. @RoyTinkers answer is also good - use a comment.

int someHexFlag = 0x010; // 000000010000
int someDecFlag = 8;     // 000000001000

The others answers here present several useful work-a rounds, but I think they aren't better then the simple answer. C# language designers probably considered a '0b' prefix unnecessary. HEX is easy to convert to binary, and most programmers are going to have to know the DEC equivalents of 0-8 anyways.

Also, when examining values in the debugger, they will be displayed has HEX or DEC.

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