The shift operators in
Java are used for left shift (`<<`), right
shift (`>>`), and unsigned right shift (`>>>`)
operations. The shift operators may appear in a shift expression:

The shift operators are equal in precedence and are evaluated from left to right.

**References**
Additive Operators;
Order of Operations

The left shift operator `<<`
produces a pure value that is its left operand left-shifted by the
number of bits specified by its right operand. The `<<`
operator may appear in a shift expression. The left shift operator
never throws an exception.

Here are some examples of the left shift operator:

(3<<2) == 12 (-3<<2) == -12 (0x01234567<<4) == 0x12345670 (0xF1234567<<4) == 0x12345670

The type of each operand of
the left shift operator must be an integer data type, or a compile-time
error occurs. The `<<` operator may perform
type conversions on its operands; unlike arithmetic binary operators,
each operand is converted independently. If the type of an operand
is `byte`, `short`, or `char`,
that operand is converted to an `int` before the
value of the operator is computed. The type of the value produced
by the left shift operator is the type of its left operand.

If the converted type of the left operand is `int`,
only the five least significant bits of the value of the right operand
are used as the shift distance. Therefore, the shift distance is
in the range 0 through 31.
In this case, the value produced by `r
<< s` is mathematically equivalent to:

If the type of the left operand is `long`,
only the six least significant bits of the value of the right operand
are used as the shift distance. Therefore, the shift distance is
in the range 0 through 63. In this case, the value produced by `r
<< s` is mathematically equivalent to:

**References**
Integer types

The right shift operator `>>`
produces a pure value that is its left operand right-shifted with
sign extension by the number of bits specified by its right operand.
Right-shifting with sign extension means that shifting a value
`n` places to the right causes the `n`
high order
bits to contain the same value as the sign bit of the unshifted
value. The >> operator may appear as part of a shift expression.
The right shift operator never throws an exception.
Here are some examples of the right shift operator:

(0x01234567>>4) == 0x00123456 (0xF1234567>>4) == 0xFF123456

The type of each operand of
the right shift operator must be an integer data type, or a compile-time
error occurs. The `>>` operator may perform type
conversions on its operands; unlike arithmetic binary operators, each
operand is converted independently. If the type of an operand is
`byte`, `short`, or `char`,
that operand is converted to an `int` before the
value of the operator is computed. The type of the value produced
by the right shift operator is the type of its left operand.

If the converted type of the left operand is `int`,
only the five least significant bits of the value of the right operand
are used as the shift distance. Therefore, the shift distance is
in the range 0 through 31.

In this case, the value produced by `r
>> s` is mathematically equivalent to:

The notation means
the greatest integer less than or equal to *x* ;
this is called the floor operation.

If the type of the
left operand is `long`, only the six least significant
bits of the value of the right operand are used as the shift distance.
Therefore, the shift distance is in the range 0 through 63. In this
case, the value produced by `r >> s` is mathematically
equivalent to:

**References**
Integer types

The unsigned right shift operator `>>>`
produces a pure
value that is its left operand right-shifted with zero extension
by the number of bits specified by its right operand. Right-shifting
with zero extension means that shifting a value `n`
places to the right causes the `n` high order
bits to contain zero. The `>>>` operator may appear
as part of a shift expression. The unsigned right shift operator
never throws an exception.

Here are some examples of the unsigned right shift operator:

(0x01234567>>>4) == 0x00123456 (0xF1234567>>>4) == 0x0F123456

The type of each operand of
the unsigned right shift operator must be an integer data type,
or a compile-time error occurs. The `>>>` operator
may perform type conversions on its operands; unlike arithmetic binary
operators, each operand is converted independently. If the type
of an operand is `byte`, `short`,
or `char`, that operand is converted to an `int`
before the value of the operator is computed. The type of the value
produced by the unsigned right shift operator is the type of its
left operand.
If the converted type of the left operand
is `int`, only the five least significant bits
of the value of the right operand are used as the shift distance.
So, the shift distance is in the range 0 through 31. Here,
the value produced by `r >>> s` is the same as:

s==0 ? r : (r >> s) & ~(-1<<(32-s))

If the type of the left operand is `long`,
then only the six least significant bits of the value of the right operand
are used as the shift distance. So, the shift distance is
in the range 0 through 63.
Here, the value produced by `r
>>> s` is the same as the following:

s==0 ? r : (r >> s) & ~(-1<<(64-s))

**References**
Integer types