@Feeds My 1st thought was 'great', but next was 'but'. Did they find a 32bit Ubuntu or have installed all 32bit libs on it? I am not prepared to pollute my U20 with those 32bit libs. So how is that gonna work?

Anyway this can perhaps prioritize 64 bit on their agenda.

After the work on MySQL a lot of useful experience gained for working with GTK as an extension for Renc.

And another weak selling point is poor support for sound, playing and recording. I have searched for a good candidate library. I want to start a topic about this on the forum.

@iArnold I understand the feeling of needing to have the GTK support for parity with historical Rebol2 (and also because they've claimed "cross platform GUI", when people were able to mock that by saying "everything is cross platform if you're going to take into account platforms that haven't been implemented yet).

But indeed, there are a lot of people who are going to have trouble embracing a new tool for the future if it makes them install compatibility layers they don't want. Any library you interface with (e.g. via FFI) also has to have the :i386 version installed. It's going to put off a lot of people.

Given how much attention is spent on Windows, and that being what they run as developers and most receptive users are running...it doesn't seem strategic to split limited development and support to other platforms. Why not just focus on being really good on Windows? <shrug>

@HostileForksaysdonttrustSE I seriously think they could not put it off really any longer. A lot of the guys are on the *nix side there, even though Supermans vision is for use by companies, and those are all on Wind(ix)o(w)s.

The situation is more complex though. There are new team membmers (not sure if contractors, not having any insider info), who are willing to work on GTK. First, the GTK project was started by Red team. But it was kind of behind the Windows / OSX backends. Then rcqls and bitbegin (hopefully I got it right) started to improve it.

The truth is, that for the last year, GTK did get MUCH of an attention. It might in fact be on pair with the Windows backend, or at least further than even the OS-X version.

The thing which I miss, strategically (apart from your obvious notes re 64-bit support), is the mobile platforms. I was the one, who really wanted a desktop GUI. And I am also the one, who is confused nowadays.

Working in a corporate environment, I can't imagine delivering a desktop app (apart from some small tools I occassionaly do). In corporations, it is mostly 2 directions - 1) browser and 2) mobile platforms.

For browser, we are using Angluar 2+ (Typescript) and for mobile, it is a Flutter framework.

So - should Red get itself into the browser? (web assembly, red.js, etc.) Should it get onto mobiles? IIRC, the mobile support was one of the topics for the initial pitch with the investors.

As for GTK - it might be in fact more important than Windows. Why? I can imagine boards like Raspberry Pi, Beagle Bone, small touch displays, Linux, iOT topics, where it might make more sense than on a desktop Windows.

I hope, at some point the GOB branch being merged (why not to have even better performance) and IO branch too. I still don't have my answers to the browser + mobile developments, though ....

It seems to me that practically speaking, a browser + Wasm UI is not "fatter" than implementing something in the weird Java of Android. Especially if the browser rutime is already in memory and shared.

So I think some of the initial stuff about making an Android specific UI...would no longer be worth it. It's better to think in terms of "progressive web apps." Avoid Java completely. You'll probably be able to; all functions (camera, GPS) will likely be accessible by browser apps without needing a Java bridge.

Yes, but then there is the question of the whole toolchain. You can't publish / monetize your app via browser, if it does not go via a Play/App store?

This dual system causes us a problem even today. I have a mixed team and some prefer doing stuff in Angular, fully responsive, so that ppl can use it in browser even on a smartphone, the others prefer full-fledged native mobile apps.

"Since v0.34.0, Electron allows submitting packaged apps to the Mac App Store (MAS). This guide provides information on: how to submit your app and the limitations of the MAS build.".

OK, so you can wrapp it into some wrapper and deliver as an app, that's good to hear. I think I even knew that, just forgot. E.g. Ms Teams and the likes are in fact Electron based apps ...

It seems to come down to the fact that no one ever made a UI framework that was an order of magnitude better than what web browsers have established through a kind of global organic consensus.

Apple's UI (NeXTStep's UI actually), is around the most agreeable, just in terms of ergonomics.

And most people don't count complexity or size in their costing model of what is "good". If they count anything, it's perceived speed...and even monstrous systems can be optimized with enough effort to make certain things seem fast...or at least not slower than leaner-seeming competition.

Flutter and Xamarin are both cross-platform mobile application development frameworks used to build apps using a single code base.

@HonourCode Hello. Are you familiar with Rebol?

Xamarin (based upon the info I got from my team) is more complicated to work with. Flutter is the trend nowadays. Let's see, what's trendy in next 2 years :-)

I have used Androids WebView to display a responsive Html UI similar to how you use IFrames within a website. It allowed me to quickly deploy my website via an app on the Google store using the original responsive website ui that I had created.

@HostileForksaysdonttrustSE btw - there's an effort to have Red in JS implementation. Not sure, how it differs from Gabriele's past effort to get Rebol into JS, called Topaz. It is being done by new guy, just voluntarily, let's see, how far he is able to get .... gitter.im/red/red.js

@pekr Each time people "port" things it just means they're making different behaviors. Especially when something isn't beholden to a formal specification. We're in a era where we have a lot of computing power, so virtualizing and transpiling makes much more sense than porting.

Really what they need is a wasm backend. Which they'd have more easily if they'd made their IL more LLVM-compatible. They could have implemented their own bits as different for optimizations or reaching lower level to hardware where it made sense, and not implemented all of LLVM. Then you could pick whether to use their small custom code generator or an installed "big" version from clang or whatever.

But the real thing is that there's so many black holes in the design of Rebol that it can seem to be more holes than design at times. It's certainly a unique approach and when it's good it can be very good in a way other languages can't, but then there are all these other problems.

"Rebol's type system is original and good!" => "Yes, it is...but the parts that are good are not original, and the parts that are original are not good."

By IL you mean Red/System? From past communication I remember, that 64-bit could be possible in /Pro. Dunnow when or in what form it comes, but if so, then it means they will use some target, maybe a LLVM.

As for the "porting" - you can't prevent guys from experimenting. Last I have read it seems the effort got not so correct implementation of words. So yes, it might be kind of Red, compatible to some extent, but most probably a separate product with even a different feature set ... who knows ....

@pekr An IL - intermediate language (also IR: intermediate representation) is a kind of abstract assembly language. It's what languages like C or Fortran typically compile to, and then this intermediate representation has code generators for various architectures. Red/System is like C, but it goes through a phase to produce an intermediate representation before going to packing binary bits into an ELF or PE executable file for the appropriate chip.

Their IR is also in Red structural notation, but you would not likely code in it directly. You might be able to escape into it and do something like "inline assembly"...I don't know, haven't looked.

In any case, if their IR had a more-or-less 1:1 mapping with what LLVM uses, it would make it easier to electively use that toolchain for code generation instead of the one they wrote. Having the option would be a good way to test whether there was enough interest to justify hand-writing emitters for an architecture later.

Anyway, I've been tapping around and catching up on the state of various languages, and trying my hand at actually writing full pure functional programs for once. I'm trying to go head-on against those foundational questions like comparison. This is giving good perspective.

How the stackless effort goes?

The evaluator parts have all gone pretty well. C recursions are generally eliminated from evaluation, PARSE, and some recursive natives like COMPOSE.

The challenges are recursive routines that aren't recursing due to evaluation. Things like a MOLD, COPY, or comparison of blocks. These have stumped me a bit.

Especially because these are supposed to be extensible mechanics; the idea was that you could add a new type to the language one day (like VECTOR!, say) and then it would have little hook points for making it MOLD, or COPY, or compare... and that would be C code, that might wind up C recursive...

Anywhere you have C recursions you can get a stack overflow. Molding a deep block... doesn't have to be cyclical (which you could detect)... just deeper than your stack allows. Wasm stacks are relatively shallow. We'd like clean errors, not crashes.

Sounds good ....

A recursive FUNC won't have problems. But if you try to implement something like COPY as if it were itself calling a "FUNCTION!" each time it recursively copies, that has potential impacts on performance. It also means the data exchange between levels of the recursions is forced to be Rebol values, which is not necessarily what you want.

It's pushing face to face with a number of problems...that were always there.

Like people don't really have cases of gracefully recovering from out-of-memory errors. If you got an out of memory error, you'd probably just crash.

Despite that, there's lip service to the system trying to trap memory conditions and supposedly raise an error gracefully. But that's never been tested. And garbage collection allocates memory as it runs, so you can't even do things like run a GC as an attempt to mitigate an out of memory condition.

Before it was possible to say "who cares, just don't use up a lot of memory". Which is clearly a lousy attitude. But stackless turns stack overflow crashes (undetectable in standard C or in Wasm) into out-of-memory errors (detectable, because malloc() returns NULL when it fails)

Anyway, I don't know if Red has any tests where they force allocations to fail at random times and see how well they can recover.

(I doubt they do; and it's just another aspect of a core design issue for a language being punted on. If you add enough of these up, it's hard to feel that your work is really contributing much to the global dialogue on software engineering...)

I'd hoped that stackless would point an obvious path to debugger development. It's clearly a stronger situation to be in: because you can jump over from a debugger's code into the code it's debugging and back...as if you had threads, even when you don't. You don't lose any state as you task switch.

This provides nice abilities like coroutines and generators, and those are working pretty well. But I didn't get any immediate inspiration on debugger APIs after that, so I went to look at other things for a while.