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Operator (programming)
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Operator (programming)

Programming languages typically support a set of operators: operations which differ in the calling of syntax and/or the argument passing mode from the language's functions. Common examples that differ by syntax are mathematical arithmetic operations, e.g. ">" for "greater than", with names often outside the language's set of identifiers for functions, and called with a syntax different from the language's syntax for calling functions. Common examples that differ by argument passing mode are boolean operations, e.g. a short-circuiting conjunction that only evaluates later arguments if earlier ones are not false, in a language with strict call-by-value functions.

A language may contain a fixed number of built-in operators (e.g. + - * = in C and C++), or it may allow the creation of programmer-defined operators (e.g. Haskell). Some programming languages restrict operator symbols to special characters like + or := while others allow also names like div (e.g. Pascal).

Some built-in operators supported by a language have a direct mapping to a small number of instructions commonly found on central processing units, though others (e.g. '+' used to express string concatenation) may have complicated implementations.

The specification of a language will specify the precedence and associativity of the operators it supports. Languages which support programmer-defined operators require the specification of the precedence and associativity of new operator symbols (e.g. Prolog).

Most programming language operators take one or two operands, with a few supporting more operands (e.g., the ?: operator in C). The position of the operator with respect to its operands may be prefix, infix or postfix.

Syntactically operators usually contrast to functions. In most languages, functions may be seen as a special form of prefix operator with fixed precedence level and associativity, often with compulsory parentheses e.g. Func(a) (or (Func a) in LISP). Most languages support programmer-defined functions, but cannot really claim to support programmer-defined operators, unless they have more than prefix notation and more than a single precedence level. Semantically operators can be seen as special form of function with different calling notation and a limited number of parameters (usually 1 or 2).

A compiler can implement operators and functions with subroutine calls or with inline code.


Operator overloading

Operators are elements in a program that are usually used to assist in testing conditions (OR, AND, =, >, etc.)

Example: IF ORDER_DATE > "12/31/2011" AND ORDER_DATE < "01/01/2013" THEN CONTINUE ELSE STOP
The operators in the example above are: ">" (greater than), "AND", "<" (less than)

In some programming languages an operator may be ad-hoc polymorphic, that is, have definitions for more than one kind of data, (such as in Java where the + operator is used both for the addition of numbers and for the concatenation of strings). Such an operator is said to be overloaded. In languages that support operator overloading by the programmer but have a limited set of operators, operator overloading is often used to define customized uses for operators.

Operand coercion

Some languages also allow for the operands of an operator to be implicitly converted, or coerced, to suitable data types for the operation to occur. For example, in Perl coercion rules lead into 12 + "3.14" producing the result of 15.14. The text "3.14" is converted to the number 3.14 before addition can take place. Further, 12 is an integer and 3.14 is either a floating or fixed-point number (a number that has a decimal place in it) so the integer is then converted to a floating point or fixed-point number respectively.

Javascript follows opposite rules finding the same expression above, it will convert the integer 12 into a string "12", then concatenate the two operands to form "123.14".

In the presence of coercions in a language, the programmer must be aware of the specific rules regarding operand types and the operation result type to avoid subtle programming mistakes.

Operator features in programming languages

The following table shows the operator features in several programming languages:

Programming language Nonalphanumeric operator symbols Alphanumeric operator symbols Prefix Infix Postfix Precedence Associativity Overloading Programmer-defined overloading Programmer-defined operator symbols
ALGOL 68 +* ** * / % %* % - + < <= >= > = /= & -:= +:= *:= /:= %:= %*:= +=: :=: :/=: (All operators have bold Alphanumeric equivalents, c.f. next column. Some have non ASCII equivalents, c.f. below.) + * := := := *:= % := : : not abs arg bin entier leng level odd repr round shorten i shl shr up down lwb upb lt le ge gt eq ne and or over mod elem minusab plusab timesab divab overab modab plusto is isnt (prefix operators always have priority 10) Infix operators are left associative, prefix operators are right associative
C () [] -> . ! ~ ++ -- + - * & / % << >> < <= > <= == != ^ | &&

<<= >>

C++ (more) sizeof new delete throw
Java new instanceof
Haskell + - * / ^ ^^ ** == /= > < >= <= && || >>= >> $ $! . ++
Many more in common libraries
Yes, by putting a function's name into backticks colspan="2" , using Type classes
  • / + - = < > <> <= >= :=
not div mod and or in
Seed7 = <> > >= < <= <& := +:= -:= *:= /:= <<:= >>:= &:= @:= conv varConv parse conj div rem mdiv mod times mult in not and or digits lpad rpad lpad0
- ?- ; , . =.. = \= < =< >= > == \== - + / *
spy nospy not is mod
Lisp Lisp defines all functions and symbols as operators.[1] Following the definition in this page, Lisp has no operators. (operators are regular functions)
Smalltalk (yes - Up to two characters[2]) (yes - Needs a colon after the keyword)
Perl -> ++ -- ** ! ~ \ + - . =~ !~ * / % < > <= >= == != <=> ~~ & | ^ && || ' // .. ... ?: = += -= *= , => print sort chmod chdir rand and or not xor lt gt le ge eq ne cmp x

See also


fr:Op rateur (informatique) ko: ( ) is:A ger (forritun) it:Operatore (informatica) he: ( ) ja: pl:Operator (programowanie) ru: ( ) ta: ( ) uk: ( )

Source: Wikipedia | The above article is available under the GNU FDL. | Edit this article

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