# why byte += 1 compile but byte = byte + 1 not?

If I have a byte variable: `byte b = 0;`

why does the following work:

``````   b++;
b += 1; // compiles
``````

... but this does not ?

``````   b = b + 1; // compile error
``````

Does compiler understand first as `byte` and second as `int` ?

[EDIT]

I know casting but I want to draw your attention to the `b++, b += 1 and b = b + 1`

I think they are equal so why compiler differs them ? what is the difference between

``````  b += 1 and b = b + 1 ?
``````
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nothing to laugh at :) the + operator practically ensures the int part –  bestsss Feb 11 '11 at 13:13
for the edit part: `byte b=0; b+=333;` this is ok. b+=1 is compiled like b=(byte)(b+1) –  bestsss Feb 11 '11 at 13:21

Because `b += 1` is an equivalent to `b = (byte)(b + 1)`, whereas type of `b + 1` is promoted to `int` (JLS §5.6.2 Binary Numeric Promotion) and therefore its result cannot be assigned to `byte` without explicit conversion.

A compound assignment expression of the form E1 op= E2 is equivalent to E1 = (T)((E1) op (E2)), where T is the type of E1, except that E1 is evaluated only once.

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Is there a way to write a numeric constant so that it is viewed as a byte? If I write 7F it is viewed as a float, 7L is a long and so on. Would something like 7B be viewed as a byte? –  BigMac66 Feb 11 '11 at 14:07
@BigMac66, `static final byte C1 = 11;// this is a byte` but still adding C1+C1 is not a byte, yet `static final byte C2 = C1 + C1;` is correct (b/c it's calculated by the compiler not the runtime), remove `final` from C1 and it's an error. –  bestsss Feb 11 '11 at 14:48
I get that, what I am asking is when you write a primitive constant value you can append a letter to designate the type you intend that constant to be, is there a letter for the byte primitive? So far I can only find L (long), D (double) and F (float) - are there any others? –  BigMac66 Feb 11 '11 at 17:33
@BigMac66: There are no other suffixes, and perhaps there is no need in them, since compile-time constants of type 'int' can be converted to narrower types implicitly when necessary. –  axtavt Feb 11 '11 at 17:36

Possible loss of precision is the problem. Cast it and it is OK.

``````b = (byte) (b + 1);
``````
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The answer is correct but I still don’t like the explanation. If possible loss of precision were a valid reason here, then the same should be prohibited for integers. After all, `Integer.MAX_VALUE + 1` has the same (or a similar) problem. –  Konrad Rudolph Feb 11 '11 at 14:50
You are right. The compiler protects you better with bytes than integers: b = 127; is OK for the compiler, while b = 128; is not and must be casted before it gives you a -128 value which is correct. Not so with integers. On the other hand you can say int i = 2147483647; which is Integer.MAX_VALUE and if you go up by one int i = 2147483648; you do get a compiler error "integer number too large". I think axtavt explains the situation well. With the byte we have a promotion with the int not. –  Costis Aivalis Feb 11 '11 at 15:25

Yes, the result of the `+`-operation is `int`, so a cast is needed in order to assign it to a `byte` variable.

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In java the default for integers is int, and for floating point numbers it is double. So `b` is by default converted to integer to perform the operation. So the resultant answer needs to be typecasted before being stored to prevent any possible loss of precision. But `b+=1` does it automatically.

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You need to cast to byte:

``````b = (byte) (b + 1);
``````
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edited. I know that casting solve this problem but I want to learn other thing that written in editted part –  user467871 Feb 11 '11 at 13:19
Doing `b + 1` widens the result to integer, and assigning back to byte b would cause loss of precision. Explained: Conversions and Promotions. But I like axtavt's answer better.