shifting line to this: -
byte bitMask = (byte)(0x8>>(byte)bitNumber);
Your RHS, is an int, you need to typecast it to byte..
Above code will work fine.. With or without the
So, you can also have : -
byte bitMask = (byte)(0x8>>bitNumber);
But, here's is a question -
byte bitMask = 0x8>>3; works fine.. Why is it so??
Here's some example to explain the reason behind its working and also the behaviour with
int varInt1 = 3;
final int finalVarInt2 = 3;
final int finalVarInt3 = 4;
bitMask = 0x8>>varInt1; // 1. Will not work.
bitMask = 0x8<<3; // 2. Will work
bitMask = 0x8<<4; // 3. Will not work
bitMask = 0x8<<finalVarInt2; // 1. Will work
bitMask = 0x8<<finalVarInt3; // 2. Will not work
Here's some reasoning that explains the above behaviour: -
- The value on the RHS will be
typecasted implicitly only if, the compiler is sure that, it will be able to accomodate that value in the
byte variable on LHS.. Else, we have to do
Explicit type casting to tell compiler that, we know what we are doing, just do it for us..
Now lets consider all the cases one-by-one (From the above code (1-3, 1-2): -
varInt1 initially contains 3. So the value of RHS evaluates to 64. Although this value might get accomodated to
byte variable in LHS, but compiler also knows that, it is possible to change the value of
varInt1.. So what if value of
varInt1 is changed to 4 at some stage.. It won't work then.. That's why it is not allowed..
- Now, in this case, since we have explicitly used an
Integer Literal here, so compiler is sure that it will accomodate in
byte.. So it allows the
- Again, in this case, it is known that
RHS will evaluate to
128 which can't be accomodated in
byte.. Failed again..
Last two cases are different from regular variables... Since they are declared
final, they can't be re-initialized.. So, compiler can make a decision based on the assigned value..
In this case, compiler sees that,
finalVarInt2 contains value 3. So, RHS evaluates to 64, which can be accommodated in the
byte variable on LHS. Now, since the variable is
final it can't be changed, and
Compiler knows that, so it is sure that t*his value will always be
64*.. So compiler allows this.
In the last case, value of
finalVarInt3 is 4.. Similar reasoning.. Won't fit in LHS, as RHS evaluates to 128 which can't fit into