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Unary operation - Wikipedia

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Mathematical operation with only one operand

In mathematics, a unary operation is an operation with only one operand, i.e. a single input.^[1] This is in contrast to binary operations, which use two operands.^[2] An example is any function ⁠ f : A → A {\displaystyle f:A\rightarrow A} ⁠, where A is a set; the function ⁠ f {\displaystyle f} ⁠ is a unary operation on A.

Common notations are prefix notation (e.g. ¬, −), postfix notation (e.g. factorial n!), functional notation (e.g. sin x or sin(x)), and superscripts (e.g. transpose A^T). Other notations exist as well, for example, in the case of the square root, a horizontal bar extending the square root sign over the argument can indicate the extent of the argument.

Obtaining the absolute value of a number is a unary operation. This function is defined as | n | = { n , if n ≥ 0 − n , if n < 0 {\displaystyle |n|={\begin{cases}n,&{\mbox{if }}n\geq 0\\-n,&{\mbox{if }}n<0\end{cases}}} where | n | {\displaystyle |n|} is the absolute value of n {\displaystyle n} .

Negation is used to find the negative value of a single number. Here are some examples:

− ( 3 ) = − 3 {\displaystyle -(3)=-3}

− ( − 3 ) = 3 {\displaystyle -(-3)=3}

For any positive integer n, the product of the integers less than or equal to n is a unary operation called factorial. In the context of complex numbers, the gamma function is a unary operation extension of factorial.

In trigonometry, the trigonometric functions, such as sin {\displaystyle \sin } , cos {\displaystyle \cos } , and tan {\displaystyle \tan } , can be seen as unary operations. This is because it is possible to provide only one term as input for these functions and retrieve a result. By contrast, binary operations, such as addition, require two different terms to compute a result.

Examples from programming languages[edit]

Below is a table summarizing common unary operators along with their symbols, description, and examples:^[3]

Operator Symbol Description Example Increment ++ Increases the value of a variable by 1 x = 2; ++x; // x is now 3 Decrement −- Decreases the value of a variable by 1 y = 10; --y; // y is now 9 Unary Plus + Indicates a positive value a = -5; b = +a; // b is -5 Unary Minus - Indicates a negative value c = 4; d = -c; // d is -4 Logical NOT ! Negates the truth value of a Boolean expression flag = true; result = !flag; // result is false Bitwise NOT ~ Bitwise negation, flips the bits of an integer num = 5; result = ~num; // result is -6

In JavaScript, these operators are unary:^[4]

Increment: ++x, x++
Decrement: --x, x--
Positive: +x
Negative: -x
Ones' complement: ~x
Logical negation: !x

C family of languages[edit]

In the C family of languages, the following operators are unary:^[5]^[6]

Increment: ++x, x++
Decrement: --x, x--
Address: &x
Indirection: *x
Positive: +x
Negative: -x
Ones' complement: ~x
Logical negation: !x
Sizeof: sizeof x, sizeof(type-name)
Cast: (type-name) cast-expression

In the Unix shell (Bash/Bourne Shell), e.g., the following operators are unary:^[7]^[8]

Pre and Post-Increment: ++$x, $x++
Pre and Post-Decrement: --$x, $x--
Positive: +$x
Negative: -$x
Logical negation: !$x
Simple expansion: $x
Complex expansion: ${#x}

In the PowerShell, the following operators are unary:^[9]

Increment: ++$x, $x++
Decrement: --$x, $x--
Positive: +$x
Negative: -$x
Logical negation: !$x
Invoke in current scope: .$x
Invoke in new scope: &$x
Cast: [type-name] cast-expression
Cast: +$x
Array: ,$array

Media related to Unary operations at Wikimedia Commons

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