byte type is an 8 bit signed integral type with values in the range
+127. The literal
+255 which is outside of that range.
In the first example, you are attempting to assign a value that is out of range to a
byte. That is a compilation error.
In the second example, the
(byte) cast is performing an explicit narrowing conversion, that removes the high order bits of the integer literal ... giving you the value
-127 in your
In fact, the situation with the first example is a bit more complicated than that. Consider this:
byte a = 1; // OK
int i = 1;
byte b = i; // Compilation error
byte c = (byte) i; // OK
Under normal circumstances, you cannot assign an
int to a
byte without a cast. However, if the value are assigning is a literal, and the literal value is within the range of the target type, the Java language permits the assignment without a cast. The literal's value is implicitly narrowed from
This is described in JLS §5.2 which defines the conversions that may be performed in an assignment:
"A narrowing primitive conversion may be used if the type of the variable is byte, short, or char, and the value of the constant expression is representable in the type of the variable."
And as you can see, this doesn't just apply to literals. It applies to all (compile-time) constant expressions!
I read the answer claiming that
255, how so? Is it not
1111 1111, What makes
255 or anything for that matter?
0xff is an integer literal of type
0xff is actually
0000 0000 0000 0000 0000 0000 1111 1111 ... which is the representation for
+255. By contrast,
-1 has the bit pattern
1111 1111 1111 1111 1111 1111 1111 1111.
Why will it not just treat it as
1111 1111 and not the 8 bits of that byte to 1?
0xff is an integer literal with type
int. As JLS §3.10.1 says:
"An integer literal is of type
long if it is suffixed with an ASCII letter
l (ell); otherwise it is of type