What are the differences between the different Rebol 3 branches, especially with the new REN branch?

Is it the platforms they'll run on, the feature set, code organization, the C standard compliance?


This is an answer destined to become outdated, hence set to Community Wiki. This information is as of Sep-2015. So if updating this answer after some time has passed, please modify the date as well.

Binary download of Rebol3 from rebol.com

  • Last build was 5-Mar-2011 and pre-dates the open source release.

  • No GUI support, no HTTPS support, no serial port support, no UDP support, no smart console...

  • No 64-bit builds. Binaries are for Windows x86, OS/X (PPC or x86), Linux (x86 or PPC), FreeBSD x86.

  • While Rebol2 binaries are archived for many "esoteric" systems (BeOS, AIX, Windows DEC Alpha, QNX, Solaris...) similar binaries were not provided for Rebol3. The only "weird" build is for Amiga, and only an OS4 PowerPC Amiga. No successful builds of Rebol3 for Amiga emulators have been reported.

Open source release of Rebol3 on Github rebol/rebol

  • Open-sourcing was on 12-Dec-2012.

  • The rebol.com binary downloads were not rebuilt as part of this release. However, a community member (@earl here on SO) created a build farm at rebolsource.net that follows this GitHub master whenever it updates. Given that GitHub's rebol/rebol master hasn't been updated since March 2014, this dynamism is currently underused.

  • Building the source at time of release got an executable not distinguishable (?) in functionality from the builds on 5-Mar-2011. This suggests few changes to the source were made besides some cleanup and Apache-licensing edits to prepare for publication.

  • Minor patches and bugfixes were integrated sporadically, with most PRs sitting idle. Last PR accepted at time of writing was Mar 3, 2014, which is over a year ago.

  • The most noticeable "breaking" PR that did get approved was to repurpose the FUNCTION name. It was considered to be worth breaking the old arity 3 form to let the word be taken for the much more useful implementation as locals-gathering FUNCT. (This also brought Rebol in alignment with Red, whose FUNCTION is arity 2 and acts similarly.) FUNCT was kept around as-is for legacy code.

  • The most major non-breaking PR that was taken is probably not requiring blocks around IF, UNLESS, or EITHER bodies. This has been received well among those who know it's there, as fitting the freeform and non-boilerplate philosophy of the language. It allows some code constructs to get "prettier" and gives programmers more choice, while it doesn't seem to cause any more problems than anything else. It's certainly less of a speedbump than if [condition] [...], in fact it seems almost no one knows this feature got added, so it must not be biting anyone. (If anyone can bend ears over at Red to make sure it gets IF and IF/ONLY then that would be ideal.)

  • RETURN/REDO was removed. Rationale was that it permitted functions to effectively behave with variable arity, and that this was unnecessary and took terra firma away by no longer being able to predict a function's arity from its spec. Perhaps this stance warrants a second look...as Lisp users who are pressuring for the addition of Lisp-style macros seeming aren't worried about that very much. (Here in the StackExchange universe, this provoked a Programmers.SE question Would Rebol (or Red) benefit from Lisp-style Macros?, which hasn't gotten much in the way of answers yet.)

The fork by Saphirion: "Saphir"

  • Prior to the open-sourcing of Rebol, Saphirion AG had a special relationship with Rebol technologies. They had access to the source and were taking responsibility for most of the development work for Rebol3 GUI features. They also added several other things like HTTPS.

  • Saphir is available as a binary download from their website, but only provided for 32-bit Windows. There was at one time an experimental .APK for Android from Saphirion.

  • Some (but not all) of Saphir's source was released after the open-sourcing. Notable omissions were the android build and some Rebol3 code for encapping...a way of injecting compressed scripts and resources into binaries of the interpreter without needing to recompile it.

(Note: Under Apache2 license there is no requirement to release source code for one's derived work.)

"Community" Integration at Rebolsource on GitHub

  • With the GitHub rebol/rebol being held up on integrations, a fork at rebolsource/r3 was established to be a "community build" where work could be staged.

  • Rebolsource changes were conservative, seemingly aimed toward showing process for how GitHub's rebol/rebol might adopt changes "in the spirit in which Rebol was conceived" should that repository be delegated to the community. (For that spirit, see this.) Hence it integrated non-controversial bugfixes and tweaks, instead of large third-party cryptography libraries for implementing HTTPS. Also: no allowance for adding build dependencies besides a C compiler (no GNU autotools, for instance).

  • Binaries for the community build were produced on an as-needed basis for those requesting them who could not build it themselves.

Atronix Engineering's Rebol "3.0" at Github zsx/r3

  • Atronix is an industrial automation solutions provider that uses Rebol. How they do so is described in a video here by David den Haring, director of Engineering, and their ZOE software is built on their version of Rebol.

  • After the open sourcing, Atronix partnered with Saphirion to port the GUI to Linux. Atronix publishes their source publicly as it is developed, and David den Haring notes in the video above that they have only one proprietary component they developed (an industrial control driver). Other than that they are happy to share the source for all Rebol development they do.

  • Atronix integrated the 64-bit patches from Rebolsource, created a Windows 64-bit target, and offer up-to-date binaries of their development branch for Windows and Linux x86/x64, as well as Linux ARMv7.

  • Besides having the features of Saphir, the Atronix build added support for CALL with /INPUT, /OUTPUT, /ERROR. It also added a Foreign Function Interface, implementing LIBRARY!, ROUTINE! and STRUCT! for communicating with non-Rebol dynamic libraries. It brings in encapping support as well on Windows and Linux.

  • Rebol's "religion" was at times at odds with expedience, so the Rebol-based build process was replaced when needed by hand-edited makefiles and Visual Studio projects. The FFI library introduced a dependency on GNU autotools to build.

  • All Atronix builds include the GUI, so there is no "Core" build. And again, only Linux and Windows.


(Bias Note: This fork is the initiative @HostileFork started, knows the most about, and will speak most enthusiastically about.)

  • Ren-C started as an an extraction of a Core build out of Atronix's codebase. That gave it features like HTTPS, the enhanced CALL, and Foreign Function Interface to essentially all the platforms that Rebolsource was able to build for. Updates Jul/Sep-2015 Ren/C supports line continuations in the console, user infix functions, several bugfixes...

  • Ren-C makes large-scale changes and fixes fundamental issues in R3-Alpha, which are tracked on a Trello that provides more information. There is a new FAQ as a GitHub wiki. Critical issues like definitionally-scoped returns have been solved, with continuous work on other outstanding problems.

  • Though Atronix's R3/View required some additional dependencies, Ren/C pushed back to being able to be built with nothing besides a C compiler, and eliminated all handmade makefiles/projects.

  • Beyond Windows, Linux and Mac in both 32-bit and 64-bit variants, Ren/C has also been built for smaller players like HaikuOS and yes, even Syllable. This is interesting more for the demonstration of how broadly turnkey builds of the C89 code work (simply as make -f makefile.boot) as opposed to there being a particularly large userbase of those particular OSes!

  • From the point of view of language rigor, Ren/C is pushing on modern techniques. Although it can still build as C89, it can be built as C99 and C11 as well. It has also been verified to build as C++98 through C++14, and with some strategic modifications under #ifdef __cplusplus it can take advantage of modern C++ as a kind of static analysis tool over the C code. Warnings are raised, type errors all fixed up, and it's "const correct". The necessary changes were carefully considered to make Rebol's baseline C code not just more correct but cleaner and clearer source across the board.

  • From a point of view of C developers, Ren/C should be stable, organized, and commented enough for anyone who knows C to "modify with confidence" and try new features. That means being able to implement definitionally scoped returns (actually written, but not pushed), or try developing features like NewPath.

  • From a point of view of architecture, Ren/C is intended to not have an executable at all...but to be a library for embedding a Rebol interpreter into other programs. It is now the basis for Ren/C++, which was designed to anticipate working with Red as well.

  • From a point of view of testing, Ren/C intends to whip everything into shape for engineering rigor and zero bug tolerance. This means avoiding practices like zero-filling memory to obscure uninitialized memory accesses, using Address Sanitizer, Valgrind, and a test suite that can pass the highest settings on both.

  • While enabling all the extra functionality has made Ren/C's executable nearly twice the size of Rebolsource's, there's not yet been any audit to see how this can be brought down. It has been confirmed that there are duplicate copies of Zlib and PNG encoding/decoding--for instance (Saphirion included LodePNG, likely to work around a bug in the existing PNG because it was easier than fixing it...yet did not mothball the previous code). Also, being able to do a build which selectively integrates only the codecs you want to use is on the agenda.

  • Ren/C currently has the stakeholders from Atronix and Rebolsource participating in its development and direction, which strengthens the likelihood that it may evolve into "the" Rebol Core. It is now being linked in as the code backing Ren Garden, and using a similar approach it may be set up as the library used by Atronix's R3/View...then Rebolsource...and perhaps ultimately rebol/rebol itself.

The fork by Oldes

(Bias Note: this edit is added 28-Feb-2019 by Oldes himself)

  • Forked from the community branch. Main focus on keeping the code close to the original Carl's release without blindly taking everything from Atronix/Saphirion but still trying to pick-up the good things from these branches slowly.

  • Not like Ren-C, this version is not trying to introduce new syntax, but rather be closer to the original Rebol2 and new Red language

  • This is an impressive post by someone who is obviously passionate thumbs up :) – user310291 Sep 9 '16 at 10:05
  • Man, that's a lot to take in. As a newcomer to Rebol, which should I start with? – Didier A. Jun 2 '19 at 6:44
  • @DidierA. This post is quite out of date. The two public codebases being developed in the Rebol universe circa 2019 are Ren-C (which now has a webassembly build) and Red. There is a sharp contrast in methods, goals, and personalities between the two. The "nice" way of saying it is that Ren-C is focused on tackling the core of what would make the language itself appeal to a sophisticate, while Red is more focused on applications (GUI dialect, cryptocurrency). Visit the chat rooms and forums and pick wherever you find resonance. – HostileFork says dont trust SE Jun 2 '19 at 18:21
  • Thanks, I'll check out Ren-C and Red then. Also, is it fair for me to assume the non open source R2 code base and build are no longer maintained? Or is there still an active company behind them? – Didier A. Jun 2 '19 at 21:17

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