# How Does The Bitwise & (AND) Work In Java?

I was reading through some code examples and came across a `&` on Oracle's website on their Bitwise and Bit Shift Operators page. In my opinion it didn't do too well of a job explaining the bitwise `&`. I understand that it does a operation directly to the bit, but I am just not sure what kind of operation, and I am wondering what that operation is. Here is a sample program I got off of Oracle's website: http://docs.oracle.com/javase/tutorial/displayCode.html?code=http://docs.oracle.com/javase/tutorial/java/nutsandbolts/examples/BitDemo.java

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and you couldn't find any other websites online which explained bitwise logic? –  jtahlborn Jun 23 at 0:38

An integer is represented as a sequence of bits in memory. For interaction with humans, the computer has do display it as decimal digits, but all the calculations are carried out as binary. `123` in decimal is stored as `1111011` in memory.

The `&` operator is a bitwise "And". The result is the bits that are turned on in both numbers. `1001 & 1100 = 1000`, since only the first bit is turned on in both.

The `|` operator is a bitwise "Or". The result is the bits that are turned on in either of the numbers. `1001 | 1100 = 1101`, since only the second bit from the right is zero in both.

There are also the `^` and `~` operators, that are bitwise "Xor" and bitwise "Not", respectively. Finally there are the `<<`, `>>` and `>>>` shift operators.

Under the hood, `123` is stored as either `01111011 00000000 00000000 00000000` or `00000000 00000000 00000000 01111011` depending on the system. Using the bitwise operators, which representation is used does not matter, since both representations are treated as the logical number `00000000000000000000000001111011`. Stripping away leading zeros leaves `1111011`.

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"123 in decimal is stored as 1111011 in memory" <-- not quite true... The machine may be little endian –  fge Jun 23 at 1:03
Implementation details. –  Markus Jarderot Jun 23 at 1:17
Oh no, not quite so... Not in Java. The JVM masks the difference for you. But in memory, the representation depends on the machine's endianness. It is very far from being an "implementation detail"! –  fge Jun 23 at 1:22
It still isn't relevant to the question. –  EJP Jun 23 at 1:25
@EJP disagree. `123` is NOT `01111011` in memory in the most commonly used architecture in the market today. Giving a wrong idea about that is misleading at the very least, source of catastrophes in the worst case. –  fge Jun 23 at 1:31
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It's a binary AND operator. It performs an AND operation that is a part of Boolean Logic which is commonly used on binary numbers in computing.

For example:

``````0 & 0 = 0
0 & 1 = 0
1 & 0 = 0
1 & 1 = 1
``````

You can also perform this on multiple-bit numbers:

``````01 & 00 = 00
11 & 00 = 00
11 & 01 = 01
1111 & 0101 = 0101
11111111 & 01101101 = 01101101
...
``````
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If you expand the two variables according to their hex code, these are:

``````bitmask : 0000 0000 0000 1111
val:      0010 0010 0010 0010
``````

Now, a simple bitwise AND operation results in the number `0000 0000 0000 0010`, which in decimal units is 2. I'm assuming you know about the fundamental Boolean operations and number systems, though.

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Its a logical operation on the input values. To understand convert the values into the binary form and where bot bits in position n have a 1 the result has a 1. At the end convert back.

For example with those example values:

``````0x2222 =  10001000100010
0x000F =  00000000001111
result =  00000000000010   => 0x0002 or just 2
``````
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If you look at two numbers represented in binary, a bitwise `&` creates a third number that has a 1 in each place that both numbers have a 1. (Everywhere else there are zeros).

Example:
`0b10011011 &`
`0b10100010 =`
`0b10000010`

Note that ones only appear in a place when both arguments have a one in that place.
Bitwise ands are useful when each bit of a number stores a specific piece of information.
You can also use them to delete/extract certain sections of numbers by using masks.

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