The other answers have done a good job of covering the functional difference between the operators, but the answers could apply to just about every single C-derived language in existence today. The question is tagged with java, and so I will endeavor to answer specifically and technically for the Java language.

`&`

and `|`

can be either Integer Bitwise Operators, or Boolean Logical Operators. The syntax for the Bitwise and Logical Operators (§15.22) is:

```
AndExpression:
EqualityExpression
AndExpression & EqualityExpression
ExclusiveOrExpression:
AndExpression
ExclusiveOrExpression ^ AndExpression
InclusiveOrExpression:
ExclusiveOrExpression
InclusiveOrExpression | ExclusiveOrExpression
```

The syntax for `EqualityExpression`

is defined in §15.21, which requires `RelationalExpression`

defined in §15.20, which in turn requires `ShiftExpression`

and `ReferenceType`

defined in §15.19 and §4.3, respectively. `ShiftExpression`

requires `AdditiveExpression`

defined in §15.18, which continues to drill down, defining the basic arithmetic, unary operators, etc. `ReferenceType`

drills down into all the various ways to represent a type. (While `ReferenceType`

does not include the primitive types, the definition of primitive types is ultimately required, as they may be the dimension type for an array, which *is* a `ReferenceType`

.)

The Bitwise and Logical Operators have the following properties:

- These operators have different precedence, with
`&`

having the highest precedence and `|`

the lowest precedence.
- Each of these operators is syntactically left-associative (each groups left-to-right).
- Each operator is commutative if the operand expressions have no side effects.
- Each operator is associative.
**The bitwise and logical operators may be used to compare two operands of numeric type or two operands of type **`boolean`

. All other cases result in a compile-time error.

The distinction between whether the operator serves as a bitwise operator or a logical operator depends on whether the operands are "convertible to a primitive integral type" (§4.2) or if they are of types `boolean`

or `Boolean`

(§5.1.8).

If the operands are integral types, binary numeric promotion (§5.6.2) is performed on both operands, leaving them both as either `long`

s or `int`

s for the operation. The type of the operation will be the type of the (promoted) operands. At that point, `&`

will be bitwise AND, `^`

will be bitwise exclusive OR, and `|`

will be bitwise inclusive OR. (§15.22.1)

If the operands are `boolean`

or `Boolean`

, the operands will be subject to unboxing conversion if necessary (§5.1.8), and the type of the operation will be `boolean`

. `&`

will result in `true`

if both operands are `true`

, `^`

will result in `true`

if both operands are different, and `|`

will result in `true`

if either operand is `true`

. (§15.22.2)

**In contrast,** `&&`

is the "Conditional-And Operator" (§15.23) and `||`

is the "Conditional-Or Operator" (§15.24). Their syntax is defined as:

```
ConditionalAndExpression:
InclusiveOrExpression
ConditionalAndExpression && InclusiveOrExpression
ConditionalOrExpression:
ConditionalAndExpression
ConditionalOrExpression || ConditionalAndExpression
```

`&&`

is like `&`

, except that it only evaluates the right operand if the left operand is `true`

. `||`

is like `|`

, except that it only evaluates the right operand if the left operand is `false`

.

Conditional-And has the following properties:

- The conditional-and operator is syntactically left-associative (it groups left-to-right).
- The conditional-and operator is fully associative with respect to both side effects and result value. That is, for any expressions
`a`

, `b`

, and `c`

, evaluation of the expression `((a) && (b)) && (c)`

produces the same result, with the same side effects occurring in the same order, as evaluation of the expression `(a) && ((b) && (c))`

.
**Each operand of the conditional-and operator must be of type **`boolean`

or `Boolean`

, or a compile-time error occurs.
- The type of a conditional-and expression is always
`boolean`

.
- At run time, the left-hand operand expression is evaluated first; if the result has type
`Boolean`

, it is subjected to unboxing conversion (§5.1.8).
- If the resulting value is
`false`

, the value of the conditional-and expression is `false`

and the right-hand operand expression is not evaluated.
- If the value of the left-hand operand is
`true`

, then the right-hand expression is evaluated; if the result has type `Boolean`

, it is subjected to unboxing conversion (§5.1.8). The resulting value becomes the value of the conditional-and expression.
- Thus,
`&&`

computes the same result as `&`

on `boolean`

operands. It differs only in that the right-hand operand expression is evaluated conditionally rather than always.

Conditional-Or has the following properties:

- The conditional-or operator is syntactically left-associative (it groups left-to-right).
- The conditional-or operator is fully associative with respect to both side effects and result value. That is, for any expressions
`a`

, `b`

, and `c`

, evaluation of the expression `((a) || (b)) || (c)`

produces the same result, with the same side effects occurring in the same order, as evaluation of the expression `(a) || ((b) || (c))`

.
**Each operand of the conditional-or operator must be of type **`boolean`

or `Boolean`

, or a compile-time error occurs.
- The type of a conditional-or expression is always
`boolean`

.
- At run time, the left-hand operand expression is evaluated first; if the result has type
`Boolean`

, it is subjected to unboxing conversion (§5.1.8).
- If the resulting value is
`true`

, the value of the conditional-or expression is `true`

and the right-hand operand expression is not evaluated.
- If the value of the left-hand operand is
`false`

, then the right-hand expression is evaluated; if the result has type `Boolean`

, it is subjected to unboxing conversion (§5.1.8). The resulting value becomes the value of the conditional-or expression.
- Thus,
`||`

computes the same result as `|`

on `boolean`

or `Boolean`

operands. It differs only in that the right-hand operand expression is evaluated conditionally rather than always.

In short, as @JohnMeagher has repeatedly pointed out in the comments, `&`

and `|`

are, in fact, non-short-circuiting boolean operators in the specific case of the operands being either `boolean`

or `Boolean`

. With good practices (ie: no secondary effects), this is a minor difference. When the operands aren't `boolean`

s or `Boolean`

s, however, the operators behave **very** differently: bitwise and logical operations simply don't compare well at the high level of Java programming.

`||`

and`&&`

short-circuit while`|`

and`&`

are eager.`&&`

and`||`

, but never`&`

`|`

. If you're doing something that depends on side effects, I don't see why you'd use something like`(a & b | c)`

since someone could easily think "I can optimize this by using the short circuited versions."2more comments