@iArnold Ah, yes, no GC.

@MarkI My hope was that with as you could alias any read-only string as a binary or vice versa. I'm fairly sad that it seems that in Rebol's not-too-polished model where every series value is an iterator, it does not seem there's a good efficient way to safely index into mutable UTF8 data caching the byte position.

This is of course presuming we call today's behavior of str: skip 3 copy "abcdefg" | clear skip 2 head str | print back back str "safe", or whatnot.

@redbot
code: [loop 10 [append code none]]
do code

; Brought to you by: try.rebol.nl
== [loop 10 [append code none] none none none none none none none none none none]

@RebolBot
code: [loop 10 [append code none]]
do code

; Brought to you by: try.rebol.nl
== none

@giuliolunati ^-- if you would like to guinea pig that and let me know what happens, it would be helpful. Since you use maps a lot, I'd be curious about how the need to have keys be locked to insert them impacts you.

For anyone else getting this error on building ren-c "The source directory .../ren-c/external/libffi does not contain a CMakeLists.txt file." You may need to run this -> "git submodule update --init --recursive"

@johnk Just curious...what led you to use the CMake build? Are you testing TCC/FFI features?

I also had to recently regen all make files due to the changes in the changes in the code that generates them

Yup, files added and removed, etc.

I was very perplexed why make was consistently failing, almost opened a bug :D

I'm slowly picking away at the build scripts, and if we can, I do hope to get rid of the GNU make dependency.

Using make to generate the makefiles is pretty funny

Yup

Anyway, what the bootstrap.reb script has to do is work with CALL in R3-Alpha, Rebolsource R3, and Ren-C. But make-make already does.

Is @giuliolunati's Android r3-make pinned or linked anywhere other than this channel?

He may use the one from rebolsource.net

No his r3-make is ren-c

Hm. Well, I'd rather no ren-c binaries become canonized as needed to be supported yet

It's a huge pain to do cross-compilation, so having an r3-make for android really helps building natively.

Each commit that is made only tries to support r3-alpha A103 (or whatever the number is that the last download from rebol.com was), rebolsource.net current download, and its own state of ren-c

And the Saphir version is both offline and doesn't work on newer Androids.

The rebolsource.net one doesn't work?

Not on all Android versions, no.

Hm. Well, if there's something simple that can be done about that, perhaps one could petition earl via email.

Just a rebuild with the latest Android SDK

Having 32b and 64b versions would be nice too as more 64b 'droids are coming out.

Probably not too hard, he may have even done it himself and just not updated the site.

@RebolBot
code: [append code "result" 1 + 2]
do code

Is the sha1 stored in the binary by chance?

; Brought to you by: try.rebol.nl
== "result"

@redbot
code: [append code "result" 1 + 2]
do code

@AnthonyMichaelCook No, but it would be nice if it were.

aye

Would be nice to have a command-line switch to extract the mezzanine from an executable so you can edit it, and also be able to splice it back in as an encap to make a new executable. Also to be able to run against an extracted mezzanine. And perhaps even know the SHA so as to be able to correlate to a github repository just for the mezzanine. Interesting-stuff-one-might-do-if-one-had-time.

I'm starting to use version info like this: [2.102.0 2016/11/09 2 2ea5d45bec0fa2eb83a58a5c39b918d369284d66]

(the lone 2 is the build number, for example, the rest is pretty obvious)

And then keeping the build data in a version metadata structure, with target platform/os/bits, build flags and compiler version, etc.

What Rebol code are you working on?

@HostileFork just playing. I had to wipe my old dev machine so am setting up a new vm

@johnk I'd like to make sure RebolBot can run on the immutable branch. The branch isn't merged yet, and I just found something weird about it, but it would be comforting to know the current bot were running on the current code...

I am looking for any "achilles heels" about it, but so far, I haven't found them. And @AnthonyMichaelCook and others often pine for threading, and the right way to get there is to have an immutability story...not Rebol mutexes and critical sections and potential crashes if you get it wrong...

So getting some traction in the area is important, and the first problem I hope to apply it to is "virtual binding", e.g. for-each x [print x] not having to touch the binding of [x] in [print x] directly.

Only a bit right now. I'd do more, but without a build pipeline and knowing updated binaries are available for all my platforms I really can't do much with it. Plus most of my major use cases are broken in r3 (UDP,concurrency,advanced parsing). So I write a lot of Bash and Ruby for small utils and then Go for stuff that needs speed, concurrency, or whatever. But I still usually have a Rebol window open for anything that comes to mind.

@AnthonyMichaelCook Not that I know anything about it, but just asking out of curiosity, what UDP need do you have that the UDP support doesn't do?

As far as concurrency models I've been working on a model for my own language, maybe you can poke holes in it and/or steal ideals for ren.

(Er, above should read for-each x [1 2 3] [print x] or somesuch.)

I was under the impression that there was little/no UDP support in r3, and the model was changing from r2 and there was no documentation. Has this changed?

@AnthonyMichaelCook I don't know, but there's code in Atronix R3/Ren-C for it, you can ask @ShixinZeng about it. I've never seen an example or used it, but he might: github.com/metaeducation/ren-c/blob/master/src/core/…

Poking it now.

Eh, formatting fail.

The behavior of molding out whatever comes back is not necessarily great, but R3-Alpha wouldn't tell you what it had at all. I'm actually leaning to the idea that construction syntax as a whole is a sham, and I'd rather see what other languages do with just a tiny abbreviated placeholder and a pointer that you can use to ask for more info.

I meant me remembering SO Chat's formatting rules, I don't mind the mold.

Trying to READ or WRITE directly with a URL!, which is how I'd assume it'd work being UDP, doesn't actually work because Ren doesn't consider it "open". READ doesn't block, and both READ and WRITE just dump the PORT! mold again no matter what I feed them.

Unless the port object is being mutated with the data? Or something?

I don't know, and have very limited UDP experience.

But point being "there's some code in there, I don't know what it does, you might ask someone, and maybe it does what you want or could be changed"

This is a bug. (the help error)

(It works in r3-alpha, so I consider it a regression)

Yep. Though the hold up on that is my personal question of "what the heck is SPEC-OF and how does it apply to user defined types". Ideally I'd like to fix it using the META-OF feature.

If you consider it high priority, the fix would be "add switch statement in HELP on datatypes and print out string"

Because at the moment, given some internal changes, I really do not know what SPEC-OF is supposed to map to.

I've asked about UDP before, in this channel. Maybe I have just been unlucky. :)

Well, we can ask Shixin when next he is around. I think he was pinged before about it (September 5 2015) but doesn't seem to have answered.

One goal of mine is to pull the evaluator out of its current execution environment and paste it into another one. I've looked into it vaguely, for instance a Node.rebol kind of thing.

I don't know what "high priority" is, but it means that if I want to use something in ren-c I often need an r3-alpha window open as well, since the help system at least gives me info. Broken reflection tools is a real downer.

>> help port!

; Brought to you by: try.rebol.nl
port! is a datatype
It is defined as an external series, an I/O channel
It is of the general type object

No values defined for port!

Well, it would help in fixing such things if people ever answered my questions about how to move forward with them: github.com/metaeducation/ren-c/issues/290

what is a spec-of is a question, and there are deep questions in Rebol, like how polymorphic dispatch works. What is it about a word that makes you know it's the "kind of word that dispatches off its first argument" or is a function that has to do a switch? Is this something you should have to plan in advance?

I'd have to see how SPEC-OF is used in the wild, but from the doc string it does look a little weird to be used on datatypes, unless you consider datatypes functions which return themselves, and have other functions applied to them.

I don't particularly like the word "spec" either. If you look at something like meta-of :append you see something much more useful.

>> m: meta-of :append | m/parameter-notes/value
== "The value to insert"

The spec block is not preserved in Ren-C for functions. It's broken down into structural information you can query. Hence SPEC-OF has to be regenerated if you want it.

meta is almost meaningless, I assume you mean it short for metadata, which has some merit, but spec blocks make sense for functions and datatypes must store similar specification and documentation. So it's handy to be able to treat them as interchangeable for this purpose.

Having fussy operations for each different shade of data can be more explicit, but if two functions are giving the same data back (even if the input args are a different type) it can be efficient for the programmer to combine them into a single function.

@AnthonyMichaelCook Disagree. Fully. If you want data to not be "in-band" meta is where people put it. Well known. meta.stackoverflow.com, meta.wikipedia.org. And parameter-notes, parameter-types, return-type, is clear as day. And: "functions and datatypes must store similar specification and documentation." -- says who? Ren-C doesn't store the spec block at all for functions.

So where is the function spec data coming from then?

I won't argue definitions of words, but websites seem like an ill metaphor for datatypes.

It's a really old word. en.wikipedia.org/wiki/Meta ... and the point being that if you get the META-OF an object, you get at stuff that you don't want actually appearing in the object itself. This is a way to associate arbitrary annotations on objects or functions as you like.

The SPEC-OF on functions giving back a block is currently regenerating it based on the structural information, which all leads up to my question of whose responsibility it is exactly to be doing so, and why you need it.

Anyway...if you look at the vast amount of design and contemplation of Ren-C and the most you can come up with is "help port! is broken, now I'm sad at your buggy software", I think it's okay if you continue at your once a year visit pace, or maybe even take it down a notch.

I didn't say it was a neologism. I did say it was almost meaningless, though I didn't explain why, but it's because it's overloaded heavily in many different contexts. Metaobject protocol. Metaclass. Metafunction. So many more. "Self-referential; at a higher level."

META-OF would self-referential in the reflection sense, but there's a LOT of possible internal data there, a SPEC is a particular chunk of data internally, whereas META only refers it the self at a higher level, which leaves a lot of interpretation.

Seriously?

I just pointed out it was a bug and you're getting whiny?

That's a bit excessive I think.

Software has bugs. You shouldn't take it so personally.

I don't take it personally. There's already a report on it.

Although, in this case, it's a bug you could fix and have decided not to, so maybe it is a personal thing.

Sort of a philosophical qualm with the current approach.

It's among the number of things that I think, if people actually cared enough to ask me about it, they should care enough to get involved with the code and help. Which involves participating.

Which, I have no dog in the fight for. So is it just because I disagreed with the word you picked then?

So if I go down a tunnel of answering something that's like a support question about something pretty trivial, I'd like to have faith that the person I'm talking to is going to stick around--follow up--be a team player. Don't have the faith in you. Sorry.

I'm looking through my messages to see where I've demanded anything from you.

I'm not seeing it. But if you're not getting support, just FYI goading people doesn't usually help.

It seems like you're saying "don't report bugs if you don't intend to fix them yourself".

Ah it doesn't matter.

No, this is particular to you. You have Rebol code, you've shown up, you've disappeared, all I know about your experience is UDP doesn't work and HELP PORT! had a problem.

And you wish to get in terminology discussions about whether META is the right word when you haven't participated in much else.

Wait, so I can't get involved in a discussion because I'm not involved in a discussion already? That's circular logic.

As I said, I want to use Rebol more, but my use cases are mostly missed in the current system. Your response to that is "fix it yourself" but also "don't talk to me about it until you've contributed".

Look, lately I've been working on big serious things. HELP PORT! being broken isn't one of them. So there's a bit of context to take into account.

I know, I've read through most of the PRs on github over the last few months, trying to gain familiarity with the codebase and the current work being done.

Well, good.

But if so that would seem to provide even more contextual information of "this is probably a lot of stressful thankless work". :-/

I've checked in with the project consistently over the last year, but I haven't felt comfortable actually making code level changes. It's been 15 years since I wrote C in any quantity. But I understand semantics and a decent chunk of the Rebol model, so I can talk about that.

Well, the immutability right now is The Thing.

And I really would like to delegate HELP to Rebol programmers because it is a usermode routine. I don't work on it specifically because other people can.

I was reading about Rebol immutability and the locking mechanisms in the PR. I've been doing a lot of research on immutable data structures on my own. I think if they're useful for certain things, go for it. I started looking into them because of concurrency, but I started to get the feeling that it might be an odd solution for that problem, at least, if a given system is not already based around immutability.

Immutable systems have non-trivial downsides. It's one of the issues with Erlang for example. If you're dealing with either a large amount of data immutable data structures require more writes and more space, so that has to be taken into consideration for the use case.

In a call-by-reference (or just pointer references in general) scheme, you're going to run into weirdness sometimes with mutable data structures. I was looking at a SO question pertaining to Rebol copy earlier which underscores it.

Well...at one point I got it in my mind that basically, Rebol-the-language doesn't hold water if you can't write something like unless: func [condition branch] [if not condition branch]. If that doesn't work, because RETURN starts returning from the UNLESS instead of from the caller, then the whole thing falls apart.

The problem of course exists all over. Yesterday I was working around a passed-in argument being mutated by Ruby's Kafka wrapper, which caused a fatal exception on frozen strings. call-by-value or the assumption of immutability by the callee would have been nice. I of course had to call dup before passing it in to fix it on my end.

To me, it was the coupling of this uniform data structure (you don't need XML because you're already programming in XML, but "richer than Lisp") with the ability of code fragments to survive context that was "the reason".

So to me, that was more interesting than "is Rebol multi-threaded". If it were, but failed on a point like that, I didn't think it mattered. There are other languages.

My big concern is how things like make object! block mutates the bindings physically in the block, so if you had bindings you liked in that block beforehand, they're trashed after the MAKE.

It does seem that Rebol should allow you access to outer contexts and be able to return from them.

And now it does, of course: trello.com/c/4Kg3DZ2H

But through the natural mechanism, same as used by variables to survive movement.

And so building on that belief, that this is fundamental, I continued to think that things that would make the language "special" and stand out would be if the same thing could be applied to BREAK, CONTINUE, etc. That you could pass a block with a break around to foreign places and it would remember where it wanted to break from.

while [...] [outer-break: :break | while [...] [outer-break]]

That sounds like a long jump to a label.

Well, so does a definitional return.

Hmm, I mean it functions as one. It's very nonlinear.

But right.

It lets you break out of nested loops.

(and a lot else besides)

So my hope was that immutability would help with this being cheap, because doing that today would require making a lot of nested copies of code. As I've said, FOR-EACH already does this today. for-each ... [for-each ... [for-each ...]]], each level makes a deep copy.

So this would be making every while, loop, etc. pay that too. (under the current model)

Go's solution is to literally use labels with break, etc. It's hideous. Here at least it's being passed around explicitly.

(or obtained through normal contextual operations)

There's a wedge now, inside of REBVAL itself. A value cell for a block threads a "specifier" in it. That specifier--whatever it is--is available when a variable is being looked up.

Is this related to the RUNNING bit?

Well, the running bit is just the Do_Core taking a lock on the array of code it's running, that it releases when it stops. Interestingly, because errors use longjmp, the stack of frames have to be explicitly cleaned up by the catcher of that longjmp. There's a lot of tricky stuff done in Ren-C for a feature no one is really using yet, namely the debugger.

But the infrastructure is pretty nice, I think.

Anyway, a RELVAL, which is a form of REBVAL which may or may not be fully specified, is combined with a specifier dynamically to make an actual REBVAL. Today, the RELVALs in function bodies contain references to the function they are relative to. That is pieced together with the specifier when the variable is fetched to find the actual variable.

So now, with immutability, there's the possibility to do a kind of "late bind" on already bound REBVALs. For instance, you could run a bind operation (let's say obj: make object! [a: 10 c: 20] | in obj [a b c]) and it doesn't change [a b c], but rather it just uses the object as the specifier.

So when a is looked up, it is also looked up in the object. The problem is this becomes a "stack". e.g. if [a b c] lived in a function body, it already needs one element of the specifier stack to be the FRAME!, to find the locals and args (let's say b is a local). Now the object obj has been added, and it comes before that, having higher priority.

But that stack could get arbitrarily large and tax the GC some. It's not clear when this is a win vs. copying the [a b c] and binding it directly, as in R3-Alpha. The virtualization may cost more than the copy.

@AnthonyMichaelCook In any case, this is the real motivation of the immutability, is whether it can be used to avoid copies when new bindings are made on code. It's not really about threading. But it might be useful there.

The above is fairly high-context, but I assume it's not possible to generate new specifiers while keeping the block for some reason? Is it because locals overwrite the block data? Hmm that can't be right, if they're immutable, you wouldn't be able to change them, and that'd be a mess, so I don't think that's what you mean.

@AnthonyMichaelCook A specifier can, in theory be any structure we design. And there's one pointer's-worth of information in every any-array! available to be the "thing you put together with the specifier to find the actual variable referred to"

The mechanical work that has been done is that Get_Var takes an element out of an array (a "relval", e.g. one of these values with the pointer's worth of information), and puts it together with the "specifier" that is threaded around, craftily.

And the way you observe what is known as "specific binding" is that function bodies have their words poke in that pointer's-worth-of information the pointer of the function. And the specifier is a pointer to a FRAME!.

So when a local or arg has the indication that it is relative to a function!, the frame is coupled with it to find the actual location of that variable (in the arg slot for that frame).

Now the question is, might other specifiers be invented.

Today if you wanted new bindings without disrupting the original source, you would have to BIND (COPY/DEEP block) obj. Because BIND would mutate them.

So, it's not possible to have multiple bindings to the same data structures?

Concretely what would that mean?

Because the array has the pointer to the specific binding, so it can only point to a single binding at a time.

Right, each array can only point to one binding.

But the trick which lets this work is that each time you make a function it copies the body to relativize it.

So if you make a function inside a function, say like foo: function [x] [... bar: function [y] [x y]], the construction process for bar makes x fully specific at the same time it relativizes y.

The solutions involving multiple pointers are all rough going. You could add an additional lookup table between the array and the binding which could contain multiple bindings, but then you don't know which one you're supposed to use. So that approach won't work. Hence the copying.

Well. If you're executing sequentially, you could have two pointers, one to the table and one to the current binding. The current binding is swapped based on the context. This is fine imperatively, but problematic in traditional threading schemes.

I'm not sure what "current" binding would be, Rebol doesn't really have such an idea.

(there's also an extra write for every context switch, which might get noisey)

"current" is the currently executing code, like at runtime, it's an artifact of the VM not anything at the userspace level.

Hmmm... in a case like for-each [x] [print x]... it is creating a context for that, a kind of make object! [x: blank] behind the scenes. But that object's REBVAL struct does have an unused field in it. Perhaps 2 unused fields.

Given the context is being created for the purpose of the enumeration, it may be sensible to embed the original specifier of the block in that field, creating a kind of linked list.

You already have to GC the object, so no additional GC tax.

And there's your stack, essentially, but it's all connected to existing GC objects.

Yes, that might solve that one. Doesn't help with binding generically, because you can bind an array into multiple objects, usually.

Er, bind multiple arrays into an object, I mean.

Hmm. Right. It's that single pointer value aiming upwards that's the trouble. If only there was a way to invert the responsibilities.

And similarly, you might try to pull something like xy-block: function [x y] [return [x y]] | for-each x [1 2 3] [bind xy-block context-of 'x]

Anyway, these are the questions that, literally, keep me up at night. Moreso than "is meta the right word". So sorry for snapping a bit, it's genuinely helpful when people participate...but this is managing an entire universe of stuff. Frustrating to say the least.

What I want to do is sort of focus in on what it means to me to "solve" it.

Concurrency and distributed systems keep me up at night. Remodeling that problem from base principles.

I feel like I'm 80% of where I want the model to be for single-machine concurrency, and that paradigm stretches out over the network, but the distributed consensus over unreliable connections and with failing nodes makes it geometrically more complex.

Functional programming is great, and in ways I'd rather be spending time on that...but the thing is that in my lifetime I've seen the majority of code go from bad to worse. JavaScript seems like the ultimate mind poison.

And we still have people learning and praising the RegExp

I think for JS and RegEx we are in accord.

And it's been fairly hard to stick to the method here, of using raw C, and not hinging on modern methods to pull things off.

I've unfortunately done enough regex at this point that I can read it fairly well. I consider this to be terrible.

You are contaminated.

I know, it's awful.

I almost put a + at the end of a method signature today to indicate "1 or more".

I do not favor FIRST+ in Rebol, and want to find some other way to say that.

Isn't it quite similar in practice to pop? But nondestructive?

I can see the whole "take first and increment" thing the name intends though, it's very Forthy.

Maybe. I thought it would be neat if push and pop could somehow turn any variable into a stack. x: 1 | push 'x 2 | print x would print 2 and then pop 'x | print x would print 1.

Hmm, feels Perly with @.

Hadn't thought it through but it would be useful for code golf.

I do like the idea of being able to treat values and sequences interchangeably (not the same, but related), I believe Icon and Unicon tried this, but I haven't seen it done anywhere else.

Ok. Well, thanks for the discussion, and yes you can chime in...but realize I am grumpy and probably am in more need of support than bug reports. It's 4am and I have to be up shortly, so I will try and see if I can get any sleep.

Oh yeah, and while it's not quite definitional returns, today I used Ruby's procs to encapsulate duplicated code which included a return, and then called them through a method to exit early. Not something I've often needed, but coincidentally did today.

Sleep is good, lets the brain collate. I recommend it.

It should collate less and just take some time off. :-/

Perhaps. But I'd be a hypocrite if I suggested it.

I'd like to take a crack at seeing what can be done with virtually binding a FOR-EACH via the context it creates, and how that might be able to at least solve the problem of binding read only source well enough that LOCK can start reporting attempts to change binding and not break code.

If it can be good enough for that, then that could be a step toward making other observations.

It will be a linear search of the keys on each word accessed, but perhaps the body could be walked and have some potential false-positive bits set on them saying "yes, somewhere this word has its binding overridden", and you don't check any that don't have the bit.

So in for-each x [1 2 3] [print x print y] it would pre-walk and dirty the info bit on x, but leave print and y alone, so they wouldn't bother with walking the object in the specifier.

Hmm, yeah, like a hash for upstream changes. I can't think of the term right now, bitfield or something.

And come to think of it, if you make an object and only use it as a specifier for an immutable object once, you can do the same thing. I don't know how many times objects are built once to use for a single binding besides for-each (and the hypothesized WHILE with a context holding its BREAK and CONTINUE, so every loop), but that's how statics for functions work.

I was thinking of "bloom filter" but I really mean a bitmap with the potential to cry wolf because it's compressed into a tiny space. Alternatively, there's always deoptimization, where it takes the nearest lookup and only stops and redoes it if it runs into a problem. A combination of the two might work, neither are perfect but at least they're fast (or can be tuned to be).

"false-positive-tolerant"

Right

I was trying to think of an implementation for what I assumed you were talking about, but all of the things that came to mind were related but not correct so I had to sort of backpedal.

I'm not freaked out about performance that much, I just don't want to be creating deep copies of things on every loop, because that just gets pathological. for-each x x-list [...] [for-each y y-list [for-each z z-list [...]]] requiring (length y-list)*(length z-list)*S order of magnitude of Storage just isn't acceptable.

No, not really no. Although it's a good way to encourage devs to optimize away loops!

But you still get that with the contexts you create, even if you don't deep copy the bodies. So I'm trying to make it possible to see if contexts are contained so they don't need to be handed to the GC and can just be freed/reused.

They're fixed size right?

The "REBSER" node is fixed size, and sizeof(REBVAL)*2, which is part of some creative bit-twiddling coming online.

But keylist and varlist grow with the number of keys.

So yeah, a registry of contexts is totally doable. Someone still has to do reference counting though, unless there can only be 1 reference, then it can be recycled at the next context creation.

The main thing about Ren-C is that it's reasonably locked down so that new ideas can be tried. R3-Alpha was very not locked down, didn't even have a debug build.

Leaks, crashes, design flaws. If you missed it: docs.google.com/presentation/d/…

If it's possible to tune it to catch the 80% of use cases, it would be possible to allocate a little extra space when making a context so that 80% of them will slot in over it. The 15-20% left over will still have to be allocated fresh, but they won't need to be GC'd.

Though, I'd probably want to see the metrics that proved this specialized form of object allo would be faster (actually it's very close to GC itself) and if the registry gets big but isn't being utilized it'll still need to hand over chunks to the GC, preferably contiguous ones.

Performance benchmarks, that are reasoned enough to be meaningful, would be useful. I'd like to see a GC that can do compaction and run in the background and such, but it's hard when working so close to the metal to do so. So my thinking is such features would be "extras" in the C++ build, where it's possible to do more lifetime management of stack REBVALs with constructors and destructors and such.

Ah yeah I saw mention of that somewhere.

The only reason to really change up the GC and things would be to increase perf though, and if people aren't running into bottlenecks... (they obv are what will generating and destroying a ton of memory objects when doing nested loops, but that's a different problem, not the GC itself)

Anyway, I think the emscripten build is pretty important, and I want that emscripten build to do all the specific binding magic and show off the language. Unlike with Red, I don't want to overinvest in a lot of platform specific code, and I largely begrudge what's there now (what earl calls "the life support")

Red is an odd duck.

Well I think the GUI on Win32 and OS/X stuff, and those targets, are a very strange strategic direction.

Red/System is a good idea. C is ugly.

Some people really want native GUIs. Personally, screw 'em, they're hideous.

Anyway, I think the big mistake that would completely kill Red for good is bootstrap.

Bootstrap of your own language should not be your first major "application"; unless you really want to think of what you are doing as research.

I think Rust is going to do for me most of what C did years ago, in the few places I need it. Otherwise I'm willing to pay the perf cost of higher-level compiled languages.

The games industry there's an adage "you can build a game or you can build an engine".

C is a placeholder for "language that can be compiled with a relatively unsophisticated compiler".

Being able to compile Ren-C with TCC is a real differentiating factor between it and something like V8.

The "systemic complexity footprint" I keep bringing up. Wanting to keep the footprint of the toolchain down as part of the whole equation.

I'd like a C with a better syntax and better transparency into what's unsafe, with sane defaults.

C compilers are some of the most complex pieces of software that exist.

If they optimize, yes.

It'd be silly to write code for 1970s mainframes and neglect the intervening 40 years of hardware instructions though.

Plenty of people like doing silly things. But for now, I really will try and sleep an hour or two...

+1

Just realized I've been up for over 24 hours. Caffeine. <3

@AnthonyMichaelCook Brain couldn't stop collating so I just did some things I was going to have to do in the AM anyway. There's more than one of these "false positive" bits available, so they could be used to make some sort of hash set, but even cheaper would be if the bits told something like "I have an override at a point in a chain of length 3", for example. So then, based on the length of the chain of prior specifiers, you could know whether to bother looking. That's thought one.

Thought two is the question of how to communicate to a construct like MAKE OBJECT! or FOR-EACH that you actually don't mind if it takes over the binding. What if you write something like word: either condition ['print] ['probe] | for-each x [1 2 3] compose [(word) x].

One answer, albeit perhaps a crummy one, is for them to assume writable means they can write on it.

I'd argue that it is highly desirable to be able to write things like for-each x [1 2 3] compose [(word) x], and not have to think more of it. e.g. FOR-EACH should not a-priori demand that the bodies it received be locked, just for the sake of being able to virtually bind them. It is more reasonable to suggest they would lock mutable bodies they received, so that anyone who had a reference prior would still have it in the state they had before.

That way you're not surprising anyone unless they try to change it afterward...when they find it locked, and realize it was the for-each that locked it, they can then choose to instead COPY it before passing it to the for-each.

I would be tempted to say that Red has emboldened the approach of saying if you don't want to deal with this, then just use the existing binding, the method I propose having a notation for-each 'x [1 2 3] [...]. Methodology-wise, it seems better than a for-each/yes-you-can-take-over-the-binding refinement. But unfortunately, that does not help with the definitional break and continue, unless you pass existing words in for those too, which does not look nice.

Going further into the strange-but-promising ideas route, it could be possible to actually extend the FOR-EACH's frame so that it had "locals" for break and continue, and it was to those locals in the frame (holding functions themselves with hidden pointers back the for-each) to which the bindings would attach. That...might...work (!)

This would be the first example of an application of natives having locals (typically they don't because they just use REBVALs on the C stack), and would require frame reification if the body contained a BREAK or CONTINUE...but not if it didn't.

>> code: [] foreach x [1] [append code x] print get first code

; Brought to you by: try.rebol.nl
1

@MarkI ^-- you are famously opposed to "trash" or "garbage" sticking around (or whatever you said). I assume you wouldn't think it any great loss if that were an error?

Imagine if BREAK, CONTINUE, and VAR were locals in the FOR-EACH native's frame, and you bound the relevant things in the body to that, as opposed to creating an object. If you keep the frame around it makes it a bit fatter, because now you're hanging onto your inputs...but the typical treatment of frames (non-<durable>) is to toss the stack data and just keep the series node around so there's something to point to and keep the references from crashing. Doesn't work for for-each [x y] ...

Hm, the name of the variable would be wrong in error messages, it would be 'var' and not 'x' :-( Well, one could loosen the requirement that you actually bind things to keys with the same name. There are other reasons why this has been needed before.

@AnthonyMichaelCook my android r3-make

@giuliolunati Yes, I was just wondering if it was linked from any of the primary sources/documentation for building on Android.