functional language - определение. Что такое functional language
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Что (кто) такое functional language - определение

PROGRAMMING PARADIGM
Functional programming language; Functional language; Functional program; Functional (programming); Functional languages; Functional programming languages; Functional Programming; Functionalprogramming; Functional computing language; Enigmatic programming; Functional Language; Functional paradigm; Comparison of imperative programming and functional programming; History of functional programming; Type systems in functional programming languages
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functional language         
<language> A language that supports and encourages {functional programming}. (1995-11-08)
functional programming language         
<language> A language that supports and encourages {functional programming}. (1995-11-08)
functional program         
<language> A program employing the functional programming approach or written in a functional language. (1995-11-07)
functional programming         
<programming> (FP) A program in a functional language consists of a set of (possibly recursive) function definitions and an expression whose value is output as the program's result. Functional languages are one kind of declarative language. They are mostly based on the typed lambda-calculus with constants. There are no side-effects to expression evaluation so an expression, e.g. a function applied to certain arguments, will always evaluate to the same value (if its evaluation terminates). Furthermore, an expression can always be replaced by its value without changing the overall result (referential transparency). The order of evaluation of subexpressions is determined by the language's evaluation strategy. In a strict (call-by-value) language this will specify that arguments are evaluated before applying a function whereas in a non-strict (call-by-name) language arguments are passed unevaluated. Programs written in a functional language are generally compact and elegant, but have tended, until recently, to run slowly and require a lot of memory. Examples of purely functional languages are Clean, FP, Haskell, Hope, Joy, LML, Miranda, and SML. Many other languages such as Lisp have a subset which is purely functional but also contain non-functional constructs. See also lazy evaluation, reduction. {Lecture notes (ftp://ftp.cs.olemiss.edu/pub/tech-reports/umcis-1995-01.ps)}. or the same {in dvi-format (ftp://ftp.cs.olemiss.edu/pub/tech-reports/umcis-1995-01.dvi)}. {FAQ (http://cs.nott.ac.uk/Department/Staff/gmh/faq.html)}. {SEL-HPC Article Archive (http://lpac.ac.uk/SEL-HPC/Articles/)}. (2003-03-25)
Functional programming         
In computer science, functional programming is a programming paradigm where programs are constructed by applying and composing functions. It is a declarative programming paradigm in which function definitions are trees of expressions that map values to other values, rather than a sequence of imperative statements which update the running state of the program.
pure functional language         
PROGRAMMING PARADIGM THAT TREATS ALL COMPUTATION AS THE EVALUATION OF MATHEMATICAL FUNCTIONS
Pure functional language; Functional purity; Purely functional language; Purely functional programming language; Pure functional programming; Pure functional
purely functional language         
PROGRAMMING PARADIGM THAT TREATS ALL COMPUTATION AS THE EVALUATION OF MATHEMATICAL FUNCTIONS
Pure functional language; Functional purity; Purely functional language; Purely functional programming language; Pure functional programming; Pure functional
<language> A language that supports only {functional programming} and does not allow functions to have side-effects. Program execution consists of evaluation of an expression and all subexpressions are {referentially transparent}. (2003-03-25)
Algebraic Logic Functional programming language         
PROGRAMMING LANGUAGE WHICH COMBINES FUNCTIONAL AND LOGIC PROGRAMMING TECHNIQUES
Algebraic logic functional programming language; Algebraic Logic Functional (programming language)
Algebraic Logic Functional programming language, also known as ALF, is a programming language which combines functional and logic programming techniques. Its foundation is Horn clause logic with equality which consists of predicates and Horn clauses for logic programming, and functions and equations for functional programming.
Purely functional programming         
PROGRAMMING PARADIGM THAT TREATS ALL COMPUTATION AS THE EVALUATION OF MATHEMATICAL FUNCTIONS
Pure functional language; Functional purity; Purely functional language; Purely functional programming language; Pure functional programming; Pure functional
In computer science, purely functional programming usually designates a programming paradigm—a style of building the structure and elements of computer programs—that treats all computation as the evaluation of mathematical functions.
Functional beverage         
NON-ALCOHOLIC DRINK THAT CONTAINS HERBS, VITAMINS, MINERALS, AMINO ACIDS OR ADDITIONAL RAW FRUIT OR VEGETABLES
Bepherages; Functional beverages; Functional drinks; Functional drink
A functional beverage is a conventional liquid food marketed to highlight specific product ingredients or supposed health benefit.

Википедия

Functional programming

In computer science, functional programming is a programming paradigm where programs are constructed by applying and composing functions. It is a declarative programming paradigm in which function definitions are trees of expressions that map values to other values, rather than a sequence of imperative statements which update the running state of the program.

In functional programming, functions are treated as first-class citizens, meaning that they can be bound to names (including local identifiers), passed as arguments, and returned from other functions, just as any other data type can. This allows programs to be written in a declarative and composable style, where small functions are combined in a modular manner.

Functional programming is sometimes treated as synonymous with purely functional programming, a subset of functional programming which treats all functions as deterministic mathematical functions, or pure functions. When a pure function is called with some given arguments, it will always return the same result, and cannot be affected by any mutable state or other side effects. This is in contrast with impure procedures, common in imperative programming, which can have side effects (such as modifying the program's state or taking input from a user). Proponents of purely functional programming claim that by restricting side effects, programs can have fewer bugs, be easier to debug and test, and be more suited to formal verification.

Functional programming has its roots in academia, evolving from the lambda calculus, a formal system of computation based only on functions. Functional programming has historically been less popular than imperative programming, but many functional languages are seeing use today in industry and education, including Common Lisp, Scheme, Clojure, Wolfram Language, Racket, Erlang, Elixir, OCaml, Haskell, and F#. Functional programming is also key to some languages that have found success in specific domains, like JavaScript in the Web, R in statistics, J, K and Q in financial analysis, and XQuery/XSLT for XML. Domain-specific declarative languages like SQL and Lex/Yacc use some elements of functional programming, such as not allowing mutable values. In addition, many other programming languages support programming in a functional style or have implemented features from functional programming, such as C++11, C#, Kotlin, Perl, PHP, Python, Go, Rust, Raku, Scala, and Java (since Java 8).