About

Overview

D is a systems programming language developed by Walter Bright and since 2006 Andrei Alexandrescu. Its focus is on combining the power and high performance of C and C++ with the programmer productivity of modern languages like Ruby and Python. Special attention is given to the needs of concurrency, reliability, documentation, quality assurance, management and portability.

The D language is statically typed and compiles directly to machine code. It supports many programming styles: imperative, object oriented, functional, and metaprogramming. It's a member of the C syntax family, and its appearance is very similar to that of C++.

There are currently two versions of D:

  • Version 1 achieved stable status in 2007 and was discontinued on December 31, 2012.
  • Version 2, a non-backwards compatible successor is feature complete and currently in the final stages of development (Please refer to the version specific tag ).

Hello world in D

import std.stdio;

void main()
{
   writeln("Hello, world!");
}

Design Goals of D

  1. Make it easier to write code that is portable from compiler to compiler, machine to machine, and operating system to operating system.
  2. Eliminate undefined and implementation defined behaviors as much as practical.
  3. Provide syntactic and semantic constructs that eliminate or at least reduce common mistakes.
  4. Reduce or even eliminate the need for third party static code checkers.
  5. Support memory safe programming.
  6. Support multi-paradigm programming, i.e. at a minimum support imperative, structured, object oriented, generic and even functional programming paradigms.
  7. Make doing things the right way easier than the wrong way.
  8. Have a short learning curve for programmers comfortable with programming in C, C++, Java or C#.
  9. Provide low level bare metal access as required.
  10. Provide a means for the advanced programmer to escape checking as necessary.
  11. Be compatible with the local C application binary interface.
  12. Have a context-free grammar, i.e. successful parsing must not require semantic analysis.
  13. Easily support writing internationalized applications.
  14. Incorporate Contract Programming and Unit Testing methodology.
  15. Be able to build lightweight, standalone programs.
  16. Reduce the costs of creating documentation.

External Resources

Tag usage

  • Use as a generic tag to refer to the language as a whole.
  • Use to refer to version 1 specifically.
  • Use to refer to version 2 specifically.
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