A++ stands for abstraction plus reference plus synthesis which is used as a name for the minimalistic programming language that is built on ARS.

ARS is an abstraction from the Lambda Calculus, taking its three basic operations, and giving them a more general meaning, thus providing a foundation for the three major programming paradigms: functional programming, object-oriented programming and imperative programming.

ARS Based Programming is used as a name for programming which consists mainly of applying patterns derived from ARS, to programming in any language.

Table of contents
1 History
2 What it can Do
3 Official Website and Information
4 Constitutive Principles of A++
5 Programming Paradigms Supported by A++
6 Core Features of A++
7 Development of Applications with A++
8 See also
9 External links

History

A++ has been developed in 2002 with the purpose to serve as a learning instrument rather than as a programming language used to solve practical problems.

It is supposed to be an efficient tool to become familiar with the core of programming and with programming patterns that can be applied in other languages needed to face the real world.

What it can Do

A++ with its interpreter available in Scheme, Java, C, C++ and Python offers an ideal environment for basic training in programming, enforcing rigorous confrontation with the essentials of programming languages.

Official Website and Information

The language is introduced on the Web Site: www.lambda-bound.de and is fully covered in the book Programmierung pur published in 2003 with the following ISBN: 3-87820-108-7.

Constitutive Principles of A++

Programming Paradigms Supported by A++

  • Functional programming, (directly supported)
    • (writing expressions to be evaluated),
  • Object-oriented programming (directly supported)
    • (sending messages to objects),
  • Imperative programming (directly supported)
    • (writing statements to be executed), including structured programming.
  • Logic programming (indirectly supported)
    • (rule based programming)

Core Features of A++

  • Logical abstractions
    • (true, false, if, not, and, or),
  • Numerical abstractions
    • (natural numbers, zerop, succ, pred, add, sub, mult),
  • Relational abstractions,
    • (equalp, gtp, ltp, gep)
  • Recursion,
  • Creation and processing of lists
    • (cons, car, cdr, nil, nullp, llength, remove, nth, assoc),
  • Higher order functions
    • (compose, curry, map, mapc, map2, filter, locate, for-each) ,
  • Set operations
    • (memberp, union, addelt),
  • Iterative control structure
    • ('while').

Development of Applications with A++

The purpose of A++ is not to be used as a programming language to write applications for the needs of the real world. Nevertheless it is possible to write simple application programs in A++ like object oriented implementations of a simple account handling and a library management system.

To write real world application programs the language 'ARS++ is provided, which extends A++ to a language similiar to Scheme. ARS++ is derived from ARS plus Scheme plus Extensions.

The book Programmierung pur, at present only available in German under the ISBN 3-87820-108-7, presents A++, its usage and implementation in detail and shows as well how programming in languages like ARS++, Scheme, Java, Python, C and C++ can be done in the spirit of A++.

The next edition of the book will include Perl as well, a powerful programming language in which ARS Based Programming can be applied as easily as in Scheme.

See also

  • ARS based programming
  • Educational programming language
  • ARS++

External links