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This question already has an answer here:

Why is

byte someVar;
someVar -= 3; 

valid but

byte someVar;
someVar = someVar - 3;


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marked as duplicate by GSerg, Wai Ha Lee, Mike McCaughan, nickf, Dan Getz Apr 15 at 1:32

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

up vote 23 down vote accepted

Surprisingly, when you perform operations on bytes the computations will be done using int values, with the bytes implicitly cast to (int) first. This is true for shorts as well, and similarly floats are up-converted to double when doing floating-point arithmetic.

The second snippet is equivalent to:

byte someVar;
someVar = (int) someVar - 3;

Because of this you must cast the result back to (byte) to get the compiler to accept the assignment.

someVar = (byte) (someVar - 3);
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Can someone verify if the type casting happens at the IL level in the someVar-=3; example? Does it generate the same IL code? – Dested Sep 4 '10 at 7:29
I just checked with Reflector. The -= operator generates a conv.u1 at the IL level, which is why the first snippet is working – Thomas Levesque Sep 4 '10 at 13:51
@Dested The precise rules are given in the C# Language Specification. It states: "The second rule above permits x op= y to be evaluated as x = (T)(x op y) in certain contexts. The rule exists such that the predefined operators can be used as compound operators when the left operand is of type sbyte, byte, short, ushort, or char. Even when both arguments are of one of those types, the predefined operators produce a result of type int, as described in § Thus, without a cast it would not be possible to assign the result to the left operand." – Jeppe Stig Nielsen Jan 4 '13 at 12:35

Here's a copy of a table in the CLI specification (Ecma 335) that specifies which operands are valid on the binary numeric operators of the type A op B, where A and B are the operands and "op" is the operator, like Opcodes.Sub that you are using in your snippet:

alt text

Some annotations are required with this:

  • "native int" is IntPtr in a C# program
  • F represents a floating point type, double or float in C#
  • & represents a pointer value, the boxes are shaded because they are unsafe operations
  • O represents an object reference
  • x is an operation that's not permitted.

Note the row and column for F, both operands must be floating point, you cannot directly add, say, an int to a double. The C# compiler deals with that limitation by automatically converting the int operand to double so that the operator is valid.

Relevant to your question: also note that the byte, sbyte, char, short and ushort types are not present. Same approach, the compiler converts the operands to the smallest type that can represent the value so that the operator can be used. Which will be int32. According to the table, the result of the operation will be int32.

Now here's the rub: the result is int32 but assigning that back to a byte value requires a narrowing conversion. From 32 bits to 8 bits. That's trouble because it loses significant bits. The C# compiler requires you to make that explicit. You essentially acknowledge that you know what you're doing and that you are aware of the potentially surprising result. Like this one:

byte v = 255;
v = (byte)(v + 1);

The -= operator is a problem because there is no effective way to apply that required cast. It isn't expressible in the language syntax. Using (byte)3 doesn't make sense, the literal gets converted to int32 anyway to make the operator work.

They punted the problem, the compiler automatically emits the cast without your help.

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this explains why i am unable to use reflection to implicitly cast between types. – fusi Sep 3 '15 at 13:18

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