Persistent Functional Language - significado y definición. Qué es Persistent Functional Language
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Qué (quién) es Persistent Functional Language - definición

PROGRAMMING LANGUAGE WHICH COMBINES FUNCTIONAL AND LOGIC PROGRAMMING TECHNIQUES
Algebraic logic functional programming language; Algebraic Logic Functional (programming language)

Persistent Functional Language      
<functional language, database> (PFL) A functional database language developed by Carol Small at Birkbeck College, London, UK and Alexandra Poulovassilis (now at {King's College London}). In PFL, functions are defined equationally and bulk data is stored using a special class of functions called selectors. PFL is a lazy language, supports higher-order functions, has a strong polymorphic type inference system, and allows new user-defined data types and values. All functions, types and values persist in a database. Functions can be written which update all aspects of the database: by adding data to selectors, by defining new equations, and by introducing new data types and values. PFL is "semi-referentially transparent", in the sense that whilst updates are referentially opaque and are executed destructively, all evaluation is referentially transparent. Similarly, type checking is "semi-static" in the sense that whilst updates are dynamically type checked at run time, expressions are type checked before they are evaluated and no type errors can occur during their evaluation. ["{A Functional Approach to Database Updates (http://web.dcs.bbk.ac.uk/CS/Research/DBPL/papers/INFSYS93.abs.html)}", C. Small, Information Systems 18(8), 1993, pp. 581-95]. (1995-04-27)
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)

Wikipedia

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.

ALF was designed to be genuine integration of both programming paradigms, and thus any functional expression can be used in a goal literal and arbitrary predicates can occur in conditions of equations. ALF's operational semantics is based on the resolution rule to solve literals and narrowing to evaluate functional expressions. In order to reduce the number of possible narrowing steps, a leftmost-innermost basic narrowing strategy is used which, it is claimed, can be efficiently implemented. Terms are simplified by rewriting before a narrowing step is applied and equations are rejected if the two sides have different constructors at the top. Rewriting and rejection are supposed to result in a large reduction of the search tree and produce an operational semantics that is more efficient than Prolog's resolution strategy. Similarly to Prolog, ALF uses a backtracking strategy corresponding to a depth-first search in the derivation tree.

The ALF system was designed to be an efficient implementation of the combination of resolution, narrowing, rewriting, and rejection. ALF programs are compiled into instructions of an abstract machine. The abstract machine is based on the Warren Abstract Machine (WAM) with several extensions to implement narrowing and rewriting. In the current ALF implementation programs of this abstract machine are executed by an emulator written in C.

In the Carnegie Mellon University Artificial Intelligence Repository, ALF is included as an AI programming language, in particular as a functional/logic programming language Prolog implementation. A user manual describing the language and the use of the system is available. The ALF System runs under Unix and is available under a custom proprietary software license that grants the right to use for "evaluation, research and teaching purposes" but not commercial or military use.