Firstly I learnt that
^ are the bitwise operators, and now somebody mentioned them as logical operators with
||, I am completely confused - the same operator has two names? There are already logical operators
||, then why use
The Java operators
And this is not just me saying this. The JLS describes these operators this way too; see JLS 15.22.
(This is just like
In the case of the first two, it is because the operators have different semantics with regards to when / whether the operands get evaluated. The two different semantics are needed in different situations; e.g.
Having a language reference is one thing, interpreting it correctly is another.
We need to interpret things correctly.
Even if Java documented that
To prove the point, both of these lines behaves the same, eversince C and upto now(Java, C#, PHP, etc)
That is, the compiler will interpret those as these:
And even if both variables
... will still be interpereted as:
Hence, this will yield a compilation error on languages which doesn't facilitate integer/boolean duality, e.g. Java and C#:
In fact, on the compilation error above, we could even make an argument that
So there we are, in another parallel universe, someone could ask, how to make the
Or this kind of question:
In fact, I would not be surprised if there's already an existing stackoverflow questions similar to above questions that asked how to do that masking idiom in Java.
To make that logical operation interpretation by the language become bitwise, we have to do this (on all languages, C, Java, C#, PHP, etc):
So to answer the question, it's not because JLS defined things such way, it's because Java(and other languages inspired by C)'s
Things just don't happen by chance, JLS 15.22 didn't happen by chance, there's a deep history around it.
In another parallel universe, where
Think about it, if
To sum it up, first and foremost Java
But since disambiguating the bitwise operations from logical operations in the same statement is very confusing, it prompted Dennis Ritchie to create a separate operator(
Check the Neonatal C section here: http://cm.bell-labs.com/who/dmr/chist.html
You can still use the bitwise operators as logical operators, its retained operator precedence is the evidence of that. Read out the history of bitwise operator's past life as logical operator on Neonatal C
Regarding the evidence, I made a blog post on comparing the logical operator and bitwise operator. It will be self-evident that the so called bitwise operators are still logical operators if you try contrasting them in an actual program: http://www.anicehumble.com/2012/05/operator-precedence-101.html
I also answered a question related to your question on What is the point of the logical operators in C?
So it's true, bitwise operators are logical operators too, albeit non-short-circuited version of short-circuited logical operators.
The XOR can be easily answered, it's like a radio button, only one is allowed, code below returns false. Apology for the contrived code example below, the belief that drinking both beer and milk at the same time is bad was debunked already ;-)
There's no short-circuit equivalent to XOR bitwise operator, as both sides of the expression are needed be evaluated.
Regarding why the need to use
The above can re-written as the following(removing the parenthesis), and still has exactly the same interpretation as the preceding code.
Removing the parenthesis and yet it still yields the same interpretation as the parenthesized one, can make the logical operator vestige of
To sum it up, using
Example sourced here: Reason for the exsistance of non-short-circuit logical operators
The Java type byte is signed which might be a problem for the bitwise operators. When negative bytes are extended to int or long, the sign bit is copied to all higher bits to keep the interpreted value. For example:
Reason: (int)b1 is internally 0xFFFB and b2<<8 is 0x0200 so i will be 0xFFFB