Boolean logical operators - AND, OR, NOT, XOR
The logical Boolean operators perform logical operations with bool operands. The operators include the unary logical negation (!
), binary logical AND (&
), OR (|
), and exclusive OR (^
), and the binary conditional logical AND (&&
) and OR (||
).
- Unary
!
(logical negation) operator. - Binary
&
(logical AND),|
(logical OR), and^
(logical exclusive OR) operators. Those operators always evaluate both operands. - Binary
&&
(conditional logical AND) and||
(conditional logical OR) operators. Those operators evaluate the right-hand operand only if it's necessary.
For operands of the integral numeric types, the &
, |
, and ^
operators perform bitwise logical operations. For more information, see Bitwise and shift operators.
Logical negation operator !
The unary prefix !
operator computes logical negation of its operand. That is, it produces true
, if the operand evaluates to false
, and false
, if the operand evaluates to true
:
bool passed = false;
Console.WriteLine(!passed); // output: True
Console.WriteLine(!true); // output: False
The unary postfix !
operator is the null-forgiving operator.
Logical AND operator &
The &
operator computes the logical AND of its operands. The result of x & y
is true
if both x
and y
evaluate to true
. Otherwise, the result is false
.
The &
operator always evaluates both operands. When the left-hand operand evaluates to false
, the operation result is false
regardless of the value of the right-hand operand. However, even then, the right-hand operand is evaluated.
In the following example, the right-hand operand of the &
operator is a method call, which is performed regardless of the value of the left-hand operand:
bool SecondOperand()
{
Console.WriteLine("Second operand is evaluated.");
return true;
}
bool a = false & SecondOperand();
Console.WriteLine(a);
// Output:
// Second operand is evaluated.
// False
bool b = true & SecondOperand();
Console.WriteLine(b);
// Output:
// Second operand is evaluated.
// True
The conditional logical AND operator &&
also computes the logical AND of its operands, but doesn't evaluate the right-hand operand if the left-hand operand evaluates to false
.
For operands of the integral numeric types, the &
operator computes the bitwise logical AND of its operands. The unary &
operator is the address-of operator.
Logical exclusive OR operator ^
The ^
operator computes the logical exclusive OR, also known as the logical XOR, of its operands. The result of x ^ y
is true
if x
evaluates to true
and y
evaluates to false
, or x
evaluates to false
and y
evaluates to true
. Otherwise, the result is false
. That is, for the bool
operands, the ^
operator computes the same result as the inequality operator !=
.
Console.WriteLine(true ^ true); // output: False
Console.WriteLine(true ^ false); // output: True
Console.WriteLine(false ^ true); // output: True
Console.WriteLine(false ^ false); // output: False
For operands of the integral numeric types, the ^
operator computes the bitwise logical exclusive OR of its operands.
Logical OR operator |
The |
operator computes the logical OR of its operands. The result of x | y
is true
if either x
or y
evaluates to true
. Otherwise, the result is false
.
The |
operator always evaluates both operands. When the left-hand operand evaluates to true
, the operation result is true
regardless of the value of the right-hand operand. However, even then, the right-hand operand is evaluated.
In the following example, the right-hand operand of the |
operator is a method call, which is performed regardless of the value of the left-hand operand:
bool SecondOperand()
{
Console.WriteLine("Second operand is evaluated.");
return true;
}
bool a = true | SecondOperand();
Console.WriteLine(a);
// Output:
// Second operand is evaluated.
// True
bool b = false | SecondOperand();
Console.WriteLine(b);
// Output:
// Second operand is evaluated.
// True
The conditional logical OR operator ||
also computes the logical OR of its operands, but doesn't evaluate the right-hand operand if the left-hand operand evaluates to true
.
For operands of the integral numeric types, the |
operator computes the bitwise logical OR of its operands.
Conditional logical AND operator &&
The conditional logical AND operator &&
, also known as the "short-circuiting" logical AND operator, computes the logical AND of its operands. The result of x && y
is true
if both x
and y
evaluate to true
. Otherwise, the result is false
. If x
evaluates to false
, y
isn't evaluated.
In the following example, the right-hand operand of the &&
operator is a method call, which isn't performed if the left-hand operand evaluates to false
:
bool SecondOperand()
{
Console.WriteLine("Second operand is evaluated.");
return true;
}
bool a = false && SecondOperand();
Console.WriteLine(a);
// Output:
// False
bool b = true && SecondOperand();
Console.WriteLine(b);
// Output:
// Second operand is evaluated.
// True
The logical AND operator &
also computes the logical AND of its operands, but always evaluates both operands.
Conditional logical OR operator ||
The conditional logical OR operator ||
, also known as the "short-circuiting" logical OR operator, computes the logical OR of its operands. The result of x || y
is true
if either x
or y
evaluates to true
. Otherwise, the result is false
. If x
evaluates to true
, y
isn't evaluated.
In the following example, the right-hand operand of the ||
operator is a method call, which isn't performed if the left-hand operand evaluates to true
:
bool SecondOperand()
{
Console.WriteLine("Second operand is evaluated.");
return true;
}
bool a = true || SecondOperand();
Console.WriteLine(a);
// Output:
// True
bool b = false || SecondOperand();
Console.WriteLine(b);
// Output:
// Second operand is evaluated.
// True
The logical OR operator |
also computes the logical OR of its operands, but always evaluates both operands.
Nullable Boolean logical operators
For bool?
operands, the &
(logical AND) and |
(logical OR) operators support the three-valued logic as follows:
The
&
operator producestrue
only if both its operands evaluate totrue
. If eitherx
ory
evaluates tofalse
,x & y
producesfalse
(even if another operand evaluates tonull
). Otherwise, the result ofx & y
isnull
.The
|
operator producesfalse
only if both its operands evaluate tofalse
. If eitherx
ory
evaluates totrue
,x | y
producestrue
(even if another operand evaluates tonull
). Otherwise, the result ofx | y
isnull
.
The following table presents that semantics:
x | y | x&y | x|y |
---|---|---|---|
true | true | true | true |
true | false | false | true |
true | null | null | true |
false | true | false | true |
false | false | false | false |
false | null | false | null |
null | true | null | true |
null | false | false | null |
null | null | null | null |
The behavior of those operators differs from the typical operator behavior with nullable value types. Typically, an operator that is defined for operands of a value type can be also used with operands of the corresponding nullable value type. Such an operator produces null
if any of its operands evaluates to null
. However, the &
and |
operators can produce non-null even if one of the operands evaluates to null
. For more information about the operator behavior with nullable value types, see the Lifted operators section of the Nullable value types article.
You can also use the !
and ^
operators with bool?
operands, as the following example shows:
bool? test = null;
Display(!test); // output: null
Display(test ^ false); // output: null
Display(test ^ null); // output: null
Display(true ^ null); // output: null
void Display(bool? b) => Console.WriteLine(b is null ? "null" : b.Value.ToString());
The conditional logical operators &&
and ||
don't support bool?
operands.
Compound assignment
For a binary operator op
, a compound assignment expression of the form
x op= y
is equivalent to
x = x op y
except that x
is only evaluated once.
The &
, |
, and ^
operators support compound assignment, as the following example shows:
bool test = true;
test &= false;
Console.WriteLine(test); // output: False
test |= true;
Console.WriteLine(test); // output: True
test ^= false;
Console.WriteLine(test); // output: True
Note
The conditional logical operators &&
and ||
don't support compound assignment.
Operator precedence
The following list orders logical operators starting from the highest precedence to the lowest:
- Logical negation operator
!
- Logical AND operator
&
- Logical exclusive OR operator
^
- Logical OR operator
|
- Conditional logical AND operator
&&
- Conditional logical OR operator
||
Use parentheses, ()
, to change the order of evaluation imposed by operator precedence:
Console.WriteLine(true | true & false); // output: True
Console.WriteLine((true | true) & false); // output: False
bool Operand(string name, bool value)
{
Console.WriteLine($"Operand {name} is evaluated.");
return value;
}
var byDefaultPrecedence = Operand("A", true) || Operand("B", true) && Operand("C", false);
Console.WriteLine(byDefaultPrecedence);
// Output:
// Operand A is evaluated.
// True
var changedOrder = (Operand("A", true) || Operand("B", true)) && Operand("C", false);
Console.WriteLine(changedOrder);
// Output:
// Operand A is evaluated.
// Operand C is evaluated.
// False
For the complete list of C# operators ordered by precedence level, see the Operator precedence section of the C# operators article.
Operator overloadability
A user-defined type can overload the !
, &
, |
, and ^
operators. When a binary operator is overloaded, the corresponding compound assignment operator is also implicitly overloaded. A user-defined type can't explicitly overload a compound assignment operator.
A user-defined type can't overload the conditional logical operators &&
and ||
. However, if a user-defined type overloads the true and false operators and the &
or |
operator in a certain way, the &&
or ||
operation, respectively, can be evaluated for the operands of that type. For more information, see the User-defined conditional logical operators section of the C# language specification.
C# language specification
For more information, see the following sections of the C# language specification:
See also
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