Open main menu

Red (programming language)

Red is a computer programming language. Red was made to overcome the limitations of the programming language Rebol. Introduced in 2011 by Nenad Rakocevic, Red is both an imperative and functional programming language. Its syntax and general usage overlaps that of the interpreted Rebol language (which was introduced in 1997).

Red
Red Logo (stylized Tower of Hanoi)
Paradigmimperative, functional, symbolic
Designed byNenad Rakocevic
DeveloperNenad Rakocevic
First appeared2011
Stable release
0.6.3 (Alpha) / July 17th, 2017
OSLinux, Windows, OS X, Syllable
Licensemodified BSD and Boost
Filename extensions.red, .reds
Websitewww.red-lang.org
Influenced by
Rebol, Scala, Lua

The implementation choices of Red intend to create a full stack programming language: Red can be used for extremely high-level programming (DSLs and GUIs) as well as low-level programming (operating systems and device drivers). Key to the approach is that the language has two parts: Red/System and Red.

  • Red/System is similar to C, but packaged into a Rebol lexical structure – for example, one would write if x > y [print "Hello"] instead of if (x > y) {printf("Hello\n");}.
  • Red is a homoiconic language capable of meta-programming, with semantics similar to Rebol's. Red's runtime library is written in Red/System, and uses a hybrid approach: it compiles what it can deduce statically and uses an embedded interpreter otherwise. The project roadmap includes a just-in-time compiler for cases in between, but this has not yet been implemented.

Red seeks to remain independent of any other toolchain; it does its own code generation. It is therefore possible to cross-compile Red programs from any platform it supports to any other, via a command-line switch. Both Red and Red/System are distributed as open-source software under the modified BSD license. The runtime library is distributed under the more permissive Boost Software License.

Red Language architecture schema

Contents

IntroductionEdit

Red was introduced in the Netherlands on February 2011 at the Rebol & Boron conference[1] by its author Nenad Rakocevic. In September 2011, the Red programming language was presented to a larger audience during the Software Freedom Day 2011.[2] Rakocevic is a long-time Rebol developer known as the creator of the Cheyenne HTTP server.[3]

FeaturesEdit

Red's syntax and semantics are very close to those of Rebol. Like Rebol, it strongly supports metaprogramming and domain-specific languages (DSLs) and is therefore a highly efficient tool for dialecting (creating embedded DSLs). Red includes a dialect called Red/System, a C-level language which provides system programming facilities. Red is easy to integrate with other tools and languages as a DLL (libRed) and very lightweight (around 1 MB). It is also able to cross-compile to various platforms (see Cross Compilation section below) and create packages for platforms that require them (e.g., .APK on Android). Red also includes a fully reactive cross-platform GUI system based on an underlying reactive dataflow engine, a 2D drawing dialect comparable to SVG, compile-time and runtime macro support, and more than 40 standard datatypes.

GoalsEdit

The following is the list of Red's Goals as presented on the Software Freedom Day 2011:

  • Simplicity ("An IDE should not be necessary to write code.")
  • Compactness ("Being highly expressive maximizes productivity.")
  • Speed ("If too slow, it cannot be general-purpose enough.")
  • Be "Green", Have a Small Footprint ("Because resources are not limitless.")
  • Ubiquity ("Spread everywhere.")
  • Portability, Write once run everywhere ("That’s the least expected from a programming language.")
  • Flexibility ("Not best but good fit for any task!")

DevelopmentEdit

Red's development is planned to be done in two phases:

  1. Initial phase: Red and Red/System compilers written in Rebol 2
  2. Bootstrap phase: Red and Red/System compilers complemented by a Red JIT-compiler, all written in Red

Cross compilationEdit

Red currently supports the following cross-compilation targets:

(Note: This list will increase with time and should therefore be considered as incomplete.)

Hello World!Edit

Red [
	Title: "Simple hello world script"
]
print "Hello World!"

Factorial ExampleEdit

IMPORTANT: These are intended as syntax examples. Until Red has 64-bit support, the integer example will overflow a 32-bit integer very quickly. Changing that to `float!` will go farther, but these are merely to show the syntax of the language.

The following is a factorial example in Red:

Red [Title: "A factorial script"]  ; Note: The title is optional.

factorial: func [
	x [integer!]  ; Giving the type of an argument in Red is optional
][
	either x = 0 [1][x * factorial x - 1]
]

The following is the same factorial example in Red/System (in this very simple case, the source code is very similar to Red's version):

Red/System [Title: "A factorial script"]

factorial: func [
	x       [integer!]                   ; This is compulsory in Red/System
	return: [integer!]                   ; This is compulsory in Red/System
][
	either x = 0 [1][x * factorial x - 1]
]

See alsoEdit

ReferencesEdit

External linksEdit