I have the following C# code:

byte rule = 0;
rule = rule | 0x80;

which produces the error:

Cannot implicitly convert type 'int' to 'byte'. An explicit conversion exists (are you missing a cast?)

[Update: first version of the question was wrong ... I misread the compiler output]

Adding the cast doesn't fix the problem:

rule = rule | (byte) 0x80;

I need to write it as:

rule |= 0x80;

Which just seems weird. Why is the |= operator any different to the | operator?

Is there any other way of telling the compiler to treat the constant as a byte?

@ Giovanni Galbo : yes and no. The code is dealing with the programming of the flash memory in an external device, and logically represents a single byte of memory. I could cast it later, but this seemed more obvious. I guess my C heritage is showing through too much!

@ Jonathon Holland : the 'as' syntax looks neater but unfortunately doesn't appear to work ... it produces:

The as operator must be used with a reference type or nullable type ('byte' is a non-nullable value type)

10 Answers 10


C# does not have a literal suffix for byte. u = uint, l = long, ul = ulong, f = float, m = decimal, but no byte. You have to cast it.

  • 2
    user: it is not defined it the c# language specifications. There's an example here: msdn.microsoft.com/en-us/library/5bdb6693(VS.80).aspx You can declare and initialize a byte variable like this example: byte myByte = 255; In the preceding declaration, the integer literal 255 is implicitly converted from int to byte. If the integer literal exceeds the range of byte, a compilation error will occur.
    – blizpasta
    Aug 20, 2010 at 2:09

This works:

rule = (byte)(rule | 0x80);

Apparently the expression 'rule | 0x80' returns an int even if you define 0x80 as 'const byte 0x80'.


The term you are looking for is "Literal" and unfortunately C# does not have a byte literal.

Here's a list of all C# literals.

int rule = 0;
rule |= 0x80;

http://msdn.microsoft.com/en-us/library/kxszd0kx.aspx The | operator is defined for all value types. I think this will produced the intended result. The "|=" operator is an or then assign operator, which is simply shorthand for rule = rule | 0x80.

One of the niftier things about C# is that it lets you do crazy things like abuse value types simply based on their size. An 'int' is exactly the same as a byte, except the compiler will throw warnings if you try and use them as both at the same time. Simply sticking with one (in this case, int) works well. If you're concerned about 64bit readiness, you can specify int32, but all ints are int32s, even running in x64 mode.

  • As you say, all ints are int32, doesn't the language (or CLR) specification make this guarantee?
    – Eloff
    May 4, 2010 at 22:59
  • 4
    int is a C# alias for Int32 and is definitely not the same as a byte. The JIT compiler is platform aware so we don't need to be. The native word size, addressing and the efficiency of operations against various native primitives are more likely to be involved in how it allocates managed data (including "primitives") in the underlying system. Consider that the same code can be compiled for .NET Micro as well as .NET CF (targeting ARM for phone and PowerPC for XBox 360). These systems may even express their numbers with different endianness which has major effects on binary operations. Jul 2, 2012 at 13:57

According to the ECMA Specification, pg 72 there is no byte literal. Only integer literals for the types: int, uint, long, and ulong.


Almost five years on and nobody has actually answered the question.

A couple of answers claim that the problem is the lack of a byte literal, but this is irrelevant. If you calculate (byte1 | byte2) the result is of type int. Even if "b" were a literal suffix for byte the type of (23b | 32b) would still be int.

The accepted answer links to an MSDN article claiming that operator| is defined for all integral types, but this isn't true either.

operator| is not defined on byte so the compiler uses its usual overload resolution rules to pick the version that's defined on int. Hence, if you want to assign the result to a byte you need to cast it:

rule = (byte)(rule | 0x80);

The question remains, why does rule |= 0x80; work?

Because the C# specification has a special rule for compound assignment that allows you to omit the explicit conversion. In the compound assignment x op= y the rule is:

if the selected operator is a predefined operator, if the return type of the selected operator is explicitly convertible to the type of x, and if y is implicitly convertible to the type of x or the operator is a shift operator, then the operation is evaluated as x = (T)(x op y), where T is the type of x, except that x is evaluated only once.


Looks like you may just have to do it the ugly way: http://msdn.microsoft.com/en-us/library/5bdb6693.aspx.


Unfortunately, your only recourse is to do it just the way you have. There is no suffix to mark the literal as a byte. The | operator does not provide for implicit conversion as an assignment (i.e. initialization) would.


Apparently the expression 'rule | 0x80' returns an int even if you define 0x80 as 'const byte 0x80'.

I think the rule is numbers like 0x80 defaults to int unless you include a literal suffix. So for the expression rule | 0x80, the result will be an int since 0x80 is an int and rule (which is a byte) can safely be converted to int.

  • This is incorrect. Even if you cast 0x80 to a byte, the | operator gives you an int. Try: rule = rule | (byte)0x80; to see what I mean. You can, however, wrap the entire operation in parentheses and cast it all to byte: rule = (byte)(rule | 0x80);
    – Ethan
    May 31, 2012 at 19:15

According to the C standard, bytes ALWAYS promote to int in expressions, even constants. However, as long as both values are UNSIGNED, the high-order bits will be discarded so the operation should return the correct value.

Similarly, floats promote to double, etc.

Pull out of copy of K&R. It's all in there.

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